Date of Preparation August 21, 2017

Transcription

1 Title A proposal to add a new major field of study in Applied Electromagnetics to the M.S. and Ph.D. degrees available within the Electrical and Computer Engineering Department, effective Fall Date of Preparation August 21, 2017 Contact Information Sheet Professor Daniel Sievenpiper Electrical and Computer Engineering Dept Gilman Drive #0407 La Jolla, CA, dsievenpiper@eng.ucsd.edu

2 Executive Summary We propose to establish a graduate program of study in Applied Electromagnetics within the M.S. and Ph.D. degree offerings in the Electrical and Computer Engineering Department in the Jacobs School of Engineering, with an effective date of Fall Students who complete the program will receive the M.S. or Ph.D. degree in Electrical and Computer Engineering (Applied Electromagnetics). Currently, there are several research groups in the department who are primarily working in electromagnetics, and the students in these groups take their preliminary exams on the electromagnetics classes. However, a formal program in this area does not currently exist, and these students must choose other areas as their major field (typically circuits or photonics) and then take their prelim in electromagnetics by exception. We are simply proposing to formalize a process which is already used on an exception basis by many students. This will also increase the visibility of our existing strengths in electromagnetics to attract more new students who are interested in this area. Section 1. Introduction 1. Aims and objectives of the program. The goal of this program is to give students background and preparation for employment and research in areas related to applied electromagnetics. These include antennas and propagation, radio frequency device design such as electronic packaging and circuits, microelectromechanical systems, and emerging areas such as metamaterials. The typical incoming student will have a BS or MS in electrical engineering. The student population will closely follow that of the broader Electrical and Computer Engineering Department, including many out of state and international students. Work experience is not required, although a few students may return from industry to pursue a higher degree in this area. Potential career paths include high tech companies such as mobile phone manufacturers, communications equipment manufacturers, makers of high tech components and instruments, or defense companies. 2. Historical development of the field and historical development of departmental strength in the field. Electromagnetics is one of the earliest fields in electrical engineering, with roots going back to giants in the field such as James Clerk Maxwell, Michael Faraday, Heinrich Hertz, Guglielmo Marconi, and Nicola Tesla. In recent years, it has maintained a position of high importance, and has expanded to include emerging areas such as micro-electromechanical systems (MEMS) and metamaterials. Furthermore, antennas and propagation continue to be an important topic, fed by the explosion of the wireless industry. The Electrical and Computer Engineering Department already has significant strength in this area. In fact, we have 4-6 professors who are primarily working in various aspects of electromagnetics, and many are extremely highly regarded within their field. However, the lack of an official program in Applied Electromagnetics means that students are not always aware of our strength in this area, and increasing visibility would likely increase the number of applicants in this topic. 3. Timetable for development of the program, including enrollment projects. The program is ready to go now. A group of professors already exist within the Electrical and Computer Engineering Department, and all of the necessary classes are already being taught. We simply want to make this an official program within the department to which students can apply, and allow them to officially take their preliminary exam in this area. This will not reduce the overall enrollment within the department, and may slightly increase enrollment due to increased visibility. Enrollments in other major fields within the department such as Electronic Circuits and Systems, Photonics, or Electronic Devices and Materials may be reduced because some of those students will choose Applied Electromagnetics. However, those students are already working in this area unofficially. 4. Relation of the proposed program to existing programs on campus and to the Campus Academic Plan.

3 This program meshes well with the existing fields in the Electrical and Computer Engineering Department. As noted above, a number of professors are focused on this area already. Their students do research in applied electromagnetics, we offer classes in this area, and they take their preliminary exam based on these classes. The lack of an official program in Applied Electromagnetics simply reduces visibility to new students, and thus likely affects the quality of students who apply. By forming an official program in this area, we can increase the quality and quantity of students who apply to the department overall. This increase in enrollment will partially mitigate the effects on other programs within the department due to students shifting into this field from other related areas such as circuits or photonics. Note all of those students who may shift fields are already working unofficially in electromagnetics, they are only in other related fields because we do not have official program in electromagnetics. 5. Interrelationship of the program with other University of California institutions, if applicable. Professors within the proposed Applied Electromagnetics program already collaborate with multiple groups on campus, including Physics, Material Science, Bioengineering, and the Scripps Institution of Oceanography, and these collaborations are expected to continue. In this sense, will be no increase in competition beyond what may already exist. Electrical Engineering departments on other UC campuses may include electromagnetics programs, as listed below. Note that many of these campuses may have significant expertise in electromagnetics, but may not have a specific program in this area, similar to the situation at UCSD. UC Berkeley no specific program in Electromagnetics (may be covered in other fields) UC Davis no specific program in Electromagnetics (may be covered in other fields) UC Irvine no specific program in Electromagnetics (may be covered in other fields) UCLA has Electromagnetics program (under Physical and Wave Electronics, in Electrical Engineering Dept.) UC Merced unknown UC Riverside no specific program in electromagnetics (may be covered in other fields) UC San Diego Currently proposing program in this area (this proposal) UC San Francisco N/A UC Santa Barbara no specific program in electromagnetics (some topics are covered in Electronics and Photonics) UC Santa Cruz no specific program in electromagnetics (but a program in Wireless and Fiber Communication) 6. Department or group which will administer the program. The program will be administered by the Electrical and Computer Engineering Department. The process is already in place for administering this program, as students are already effectively in the program on an exception basis. The Applied Electromagnetics program will be managed in the same way as other fields within the department, including degree planners, procedures for exams and thesis, etc. Other existing fields within the ECE department include those listed below. Note that the department is currently proposing to eliminate three of these areas, and will be submitting a separate proposal to the Graduate Council with those requests. The new major field of Applied Electromagnetics will take the place of some of these areas, including some aspects of Space Science, and Magnetic Recording. 1. Applied Ocean Sciences (in process of eliminating) 2. Applied Optics and Photonics 3. Communication Theory and Systems 4. Computer Engineering 5. Electronic Circuits and Systems 6. Applied Physics - Electronic Devices and Materials 7. Intelligent Systems, Robotics, and Control 8. Magnetic Recording (in process of eliminating) 9. Applied Physics - Space Science (in process of eliminating) 10. Signal and Image Processing 11. Nanoscale Devices and Systems 12. Medical Devices and Systems

4 Section 2. Program 1. Undergraduate preparation for admission. Students will have the same admission requirements as for the rest of the Electrical and Computer Engineering Department. Prospective graduate students apply to a specific major within ECE, and applications to the Applied Electromagnetics major will be reviewed with particular attention placed on performance in courses related to electromagnetics, or prior research in this area. 2. Foreign language. There will be no foreign language requirement that is specific to Applied Electromagnetics. If the Electrical and Computer Engineering Department adopts a foreign language requirement in the future, that requirement will flow down to this program. 3. Program of study: a. Specific fields of emphasis Currently, each ECE specialty area has its own individual set of competency course requirements, but all majors, including Applied Electromagnetics, have the same total credit requirement as described below: a) M.S. degree: Complete 48 academic units of which at least 36 units must be in graduate courses. Among the 48 units, ECE 299 (graduate research) cannot be counted for more than 8 units for Plan I or more than 4 units for Plan II. Students in Plan I must submit an M.S. thesis and pass the oral defense of the thesis, and students in Plan II must pass a written comprehensive examination. b) Ph.D. degree: Complete 48 academic units of which at least 36 units must be in graduate courses. ECE 299 (graduate research) cannot be counted for more than 8 units. To receive the Ph.D. degree, students must pass the Preliminary Examination, the University Qualifying Examination (advancing to candidacy), and complete and defend the Ph.D. dissertation. The focus of the program in Applied Electromagnetics is embodied in existing courses at UCSD. At the undergraduate level, these include: ECE107 Electromagnetism ECE123 Antenna Systems Engineering ECE166 Microwave Circuits and Systems At the graduate level, the courses include: ECE222A Antennas and Their System Applications ECE222B Applied Electromagnetic Theory Electromagnetics ECE222C Applied Electromagnetic Theory Computational Methods for Electromagnetics ECE222D Advanced Antenna Design Additional courses that are offered from time to time include special topic seminars on areas such as periodic structures, metamaterials, etc. Research in this area involves many current areas in electromagnetics including electrically small antennas, multi-input/multi-output (MIMO) antennas, micro-electromechanical systems, artificial impedance surfaces, wideband phased arrays, photonic topological insulators, and any other area of electromagnetics ranging from electrostatic structures through radio frequencies, THz structures, through infrared and optical devices. Other emerging areas include biological applications of electromagnetics.

5 b. Plan(s): Master s I (with thesis) Master s II (with comprehensive exam) Doctor s A (5-member committee, mandatory oral defense) c. Unit requirements Core Coursework: 12 units from ECE 222A, 222B, 222C, 222D (antennas, electromagnetic theory, computational methods, advanced antennas) 12 additional units from: ECE 222A, B, C, D (a course not counted in core coursework may be counted here) ECE 264A, B, C (analog circuits) ECE 265A, B, C (communication circuits) ECE 240A, B, C (photonics) ECE 212AN, BN, CN (nano science) ECE 230A, B, C (solid state electronics) ECE 236A, B, C (semiconductor materials) ECE254A, B, C (digital communications) ECE251A, B, C (signal processing) 24 units of technical electives: Any 4 unit, 200+ course from ECE, CSE, MAE, BENG, CENG, NANO, SE, MATS, MATH, PHYS or CogSci taken for a letter grade may be counted. Exceptions to this list require departmental approval. Up to 12 units of undergraduate ECE coursework (ECE 111+ only; and not including ECE 195, 197, 198 or 199) may be counted. MS students (Plan II) are allowed no more than 4 units of ECE 299 (research units) as technical electives. PhD and MS students (Plan I) are allowed no more than 8 units of ECE 299 as technical electives. d. Required and recommended courses, including teaching requirement As listed above. There is no specific teaching requirement. e. (For Master s II only) Description of capstone element The capstone element will be a comprehensive exam. This will include questions that are typically similar to final exam questions from the ECE222 series courses. Questions and evaluation methods will be consistent with the rest of the ECE department. f. Licensing requirements N/A No licensing requirements are involved in this field. 4. Field examinations oral. The preliminary exam will be consistent with the rest of the ECE department. It will include a brief presentation of the student s research to date, followed by an oral examination based on two courses of the student s choosing, from among the ECE222 series. Professors will have a wide latitude to choose the questions from among these general areas, in order to evaluate the student s thought process and mastery of the field. Passing the exam is contingent upon a consensus decision of the exam committee, which includes three faculty members of the student s choosing,

6 accepted by the student s advisor. Any changes to the ECE department policy on preliminary exams will flow down to this program. 5. Qualifying examinations oral. The qualifying exam will be consistent with the rest of the ECE department. It will include a summary of the student s research results to date, and their research plans for finishing their degree. Passing the exam is contingent upon a consensus decision of the exam committee, which will consist of five members, including two from outside the department, selected by the student and approved by the student s advisor. Any changes to the ECE department policy on qualifying exams will flow down to this program. 6. Thesis and/or dissertation. The requirements for the thesis will be consistent with the rest of the ECE department. The thesis will be a written exposition of the student s research work. It will be reviewed by the members of the final defense committee, who are typically the same as the members of the qualifying exam committee. Any changes to the ECE department policy on thesis requirements will flow down to this program. 7. Final examination. The final defense exam will be consistent with the rest of the ECE department. It will include an oral presentation of the student s research. Passing the exam is contingent upon a consensus decision of the exam committee, which will consist of five members, including two from outside the department, selected by the student and approved by the student s advisor. They are typically the same as the members of the qualifying exam committee Any changes to the ECE department policy on final defenses will flow down to this program. 8. Explanation of special requirements over and above Graduate Division minimum requirements. None. 9. Relationship of master s and doctor s programs (if applicable). There is no particular relationship between the M.S. and Ph.D. program, other than sharing the same classes. Students in the M.S. program may join the Ph.D. program if they find a willing advisor, as with any other area within the ECE department. 10. Special preparation for careers in teaching. There is no particular preparation for careers in teaching. Those students who wish to pursue an academic career may choose to be TAs for various ECE classes to gain practice. 11. Sample program. Core Coursework: 12 units from ECE 222A, 222B, 222C, 222D (antennas, electromagnetic theory, computational methods, advanced antennas) 12 additional units from: ECE 222A, B, C, D (a course not counted in core coursework may be counted here) ECE 264A, B, C (analog circuits) ECE 265A, B, C (communication circuits) ECE 240A, B, C (photonics) ECE 212AN, BN, CN (nano science)

7 ECE 230A, B, C (solid state electronics) ECE 236A, B, C (semiconductor materials) ECE254A, B, C (digital communications) ECE251A, B, C (signal processing) 24 units of technical electives: Any 4 unit, 200+ course from ECE, CSE, MAE, BENG, CENG, NANO, SE, MATS, MATH, PHYS or CogSci taken for a letter grade may be counted. Exceptions to this list require departmental approval. Up to 12 units of undergraduate ECE coursework (ECE 111+ only; and not including ECE 195, 197, 198 or 199) may be counted. MS students (Plan II) are allowed no more than 4 units of ECE 299 (research units) as technical electives. PhD and MS students (Plan I) are allowed no more than 8 units of ECE 299 as technical electives. M.S.: Comprehensive exam passed prior to graduation Ph.D.: Preliminary exam taken by the end of the second year, based on two ECE222 series classes selected by the student. Qualifying exam taken by the end of the third year Thesis and final defense prior to graduation. 12. Normative time from matriculation to degree. The normal time to degree is expected to be 2 years for the M.S., and 6 years for the Ph.D. Degree progress limits and cut-off times will be consistent with the rest of the department, and are subject to ECE and UCSD rules. Section 3. Projected Need 1. Student demand for the program. There are currently roughly 25 students who would fit within the Applied Electromagnetics program if it existed today. This assumes all of the students in the groups of Professors Sievenpiper, Lomakin, and Kante, and roughly half of the students in the groups of Professors Rebeiz and Fullerton. Some additional students in other research groups will undoubtedly be included as well. The proportion of in-state, out-of-state, and international students are in line with the broader ECE department distribution. The enrolment for each of the core electromagnetics classes for the past 4 years are listed below: ECE 123 ECE 166 ECE 222A ECE 222B ECE 222C ECE 222D Opportunities for placement of graduates. Students who are already studying this topic at UCSD, and effectively following this plan on an exception basis, are receiving job offers from a wide range of high tech companies. Placements of recent graduates include companes such as Qualcomm, Broadcom, Media-Tek, Intel, Apple, Google, Maxlinear, Keysight, HRL Laboratories, Northrop Grumman, Skyworks, Anokiwave, TDK, and others. Post-docs and visiting scholars in this area have also gotten faculty positions at other universities. All recent graduates from the faculty involved in this area have received lucrative job offers within their field or in a closely related area. International students have received offers both

8 within the U.S. and abroad, and U.S. employers will often sponsor them for the permanent residency process. This area is growing rapidly with the increase in wireless communications worldwide, and that is driving much of the job market expansion. 3. Importance to the discipline. The field of Applied Electromagnetics is one of the core areas of electrical engineering, and many schools offer specific programs in this area. 10 of the top 25 engineering schools have programs related to electromagnetics, listed below. Currently, UCSD has significant strength in this area, but we do not have a specific program to which new students can apply. They find out about our expertise through word of mouth, and we tell them to apply through other programs such as Electronic Circuits and Systems, or Photonics. The establishment of an official Applied Electromagnetics program will increase visibility of our capabilities, and lead to a larger number of applicants and of higher quality, further enhancing UCSD s reputation in engineering. Electromagnetics programs (or similar) within the top-25 engineering schools: CalTech: Electromagnetics, Optics, and Optoelectronics U. Michigan: Applied Electromagnetics and RF Circuits Georgia Tech: Electromagnetics UIUC: Electromagnetics, Optics, and Remote Sensing UT Austin: Electromagnetics and Acoustics Texas A&M: Electromagnetics and Microwaves Cornell: Electromagnetics and Plasma Sciences USC: Electromagnetics and Energy Conversion UCLA: Electromagnetics Virginia Tech: Antennas and Propagation 4. Ways in which the program will meet the needs of society. This program will increase UCSD s ability to attract and train students in applied electromagnetics and and related areas such as antennas and propagation, microwave circuits, as well as emerging areas such as metamaterials and active electromagnetic structures. As evidenced by the strong need for students with these skills within the industries of telecommunications, defense, microwave instruments, and other related areas, these areas are growing rapidly, driven primarily by the continuing increase in wireless communications. This program will enhance our ability to provide high quality job candidates for these companies, further strengthening the capabilities of these industries, the San Diego region, the United States, and all users of wireless communications devices (e.g. cellphones) worldwide. 5. Relationship of the program to research and/or professional interests of the faculty. The program is directly related to the research interests of several of the faculty members: Daniel Sievenpiper artificial impedance surfaces, metamaterials, active electromagnetic structures, antennas Gabriel Rebeiz phased array antennas, microelectromechanical systems (MEMS) Vitaliy Lomakin computational electromagnetics, micromagnetics codes Eric Fullerton micromagnetics and magnetic materials Boubacar Kante metamaterials, photonic topological insulators, bound states in the continuum Zhaowei Liu metamaterials, artificial magnetic structures The program is also tangentially related to the research interest of many other faculty members in the areas of Electronic Circuits and Systems, Photonics, and Electronic Devices and Materials. 6. Program Differentiation. Among the universities in California (UC and private schools) there are at least 3 programs involving electromagnetics, which are listed below. Many other schools also offer classes in electromagnetics, as it is one of

9 the core areas of electrical engineering. However, not all schools may have specific graduate programs in this area, depending on their strengths and faculty mix, which both evolve over time. UCLA: Electromagnetics (under Physical and Wave Electronics) CalTech: Electromagnetics, Optics, and Optoelectronics USC: Electromagnetics and Energy Conversion Creating a specific program in Applied Electromagnetics will identify this as an area of strength for UCSD, and will allow us to attract a larger and higher quality body of applicants in this area to our Electrical and Computer Engineering department. Section 4. Faculty Several current faculty members are considered Daniel Sievenpiper, Ph.D., Professor, IEEE Fellow Gabriel Rebeiz, Ph.D., Professor, IEEE Fellow, National Academy of Engineering member Vitaliy Lomakin, Ph.D., Associate Professor Eric Fullerton, Ph.D., Professor, IEEE Fellow Boubacar Kante, Ph.D., Assistant Professor Zhaowei Liu, Ph.D., Associate Professor BioBibs for participating faculty will be attached to this application. Section 5. Courses ECE 107. Electromagnetism (4) Fullerton, Kante, Lomakin Electrostatics and magnetostatics; electrodynamics; Maxwell s equations; plane waves; skin effect. Electromagnetics of transmission lines: reflection and transmission at discontinuities, Smith chart, pulse propagation, dispersion. Rectangular waveguides. Dielectric and magnetic properties of materials. Electromagnetics of circuits. Prerequisites: Phys 2A D or 4A E and ECE 45 with grades of C or better. ECE 123. Antenna Systems Engineering (4) Sievenpiper The electromagnetic and systems engineering of radio antennas for terrestrial wireless and satellite communications. Antenna impedance, beam pattern, gain, and polarization. Dipoles, monopoles, paraboloids, phased arrays. Power and noise budgets for communication links. Atmospheric propagation and multipath. Prerequisites: ECE 107 with a grade of C or better. ECE 166. Microwave Systems and Circuits (4) Rebeiz Waves, distributed circuits, and scattering matrix methods. Passive microwave elements. Impedance matching. Detection and frequency conversion using microwave diodes. Design of transistor amplifiers including noise performance. Circuits designs will be simulated by computer and tested in the laboratory. (Course material and/or program fees may apply.) Prerequisites: ECE 102 and 107 with grades of C or better. ECE 222A. Antennas and Their System Applications (4) Rebeiz Antennas, waves, polarization. Friis transmission and Radar equations, dipoles, loops, slots, ground planes, traveling wave antennas, array theory, phased arrays, impedance, frequency independent antennas, microstrip antennas, cell phone antennas, system level implications such as MIMO, multi-beam and phased array systems. (Recommended prerequisites: ECE107 or an equivalent undergraduate course in electromagnetics.) Prerequisites: graduate standing. ECE 222B. Applied Electromagnetic Theory Electromagnetics (4) Lomakin, Sievenpiper Graduate-level introductory course on electromagnetic theory with applications. Topics covered include Maxwell s equations, plane waves in free space and in the presence of interfaces, polarization, fields in metallic and dielectric

10 waveguides including surface waves; fields in metallic cavities, Green s functions, electromagnetic field radiation and scattering. Prerequisites: ECE 222A; graduate standing. ECE 222C. Applied Electromagnetic Theory Computational Methods for Electromagnetics (4) Lomakin Computational techniques for numerical analysis of electromagnetic fields, including the finite difference time domain (FDTD) method, finite difference frequency domain (FDFD) method, method of moments (MOM), and finite element method (FEM). Practice in writing numerical codes. Review of commercial electromagnetic simulators. Prerequisites: ECE 222B; graduate standing. ECE 222D. Advanced Antenna Design (4) Sievenpiper Review of 222A B. Fourier transform, waveguide antennas. Mutual coupling, active impedance, Floquet modes in arrays. Microstrip antennas, surface waves. Reflector and lens analysis: taper, spillover, aperture and physical optics methods. Impedance surfaces. Advanced concepts: Sub-wavelength propagation, etc. (chosen by instructor). (Recommended prerequisites: ECE 222A, ECE 222B, or equivalent.) Prerequisites: ECE 222C; graduate standing. These courses will continue to be staffed the same way that they have been for the past several years, with typical instructors listed after the course titles above. Thus, there is no effect on staffing levels. Additional faculty members may be hired as necessary as the program expands in line with the overall growth of the department. Section 6. Resource Requirements Estimated for the first 5 years the additional cost of the program, by year, for each of the following categories: 1. FTE faculty none 2. Library acquisition none 3. Computing costs none 4. Equipment none 5. Space and other capital facilities none 6. Other operating costs none No new resources will be required for this program. Professors who are involved will continue to teach the same classes. Any expansion of the program will be part of the overall ECE department expansion and hiring plan. The involved professors already have established laboratories, space, computing resources, etc. Section 7. Graduate Student Support Graduate students will be supported in the same way as they are currently supported in the overall ECE department. This typically involves a fellowship for the first year, followed by a research assistantships paid by grants or contracts for the remainder of their studies. The fellowships will come from the overall pool for the department. Involved professors already receive fellowship allocations from other groups, and those would be reduced accordingly so that each professor gets, on average, the same number of fellowships regardless of which group they are involved with, or if they are involved with multiple groups. Research assistantships for the following years will be paid by the grants and contracts of the professors who are involved with the Applied Electromagnetics program. Those professors are already supporting all of their students on existing grants and contracts, and nothing will change with the creation of the Applied Electromagnetics program. Those students are already unofficially following the proposed program on an exception basis, so this program will not change anything with regards to student support. It will only involve re-allocation or re-naming of some support structures to be associated with this program, but will not change the overall average support profile for any of the professors, nor of those associated with other groups. Teaching assistantships are generally allocated to the professors who are teaching the corresponding courses, and they choose graduate students based on class needs, and the skills and experience of the applicants. This will not change with the creation of the Applied Electromagnetics program.

11 Average per student support from all sources will remain exactly as it is, consistent with ECE department averages. Section 8. Governance The Department or Group that will administer the program is the Electrical and Computer Engineering Department. This program will be governed in the same way as all other programs within the department. This proposal is only a mechanism to allow students to apply to this topic, and to officially take their preliminary exams in this topic without requiring an exception.

12 Appendices 1. Appendix A: Feedback from Chairs of Programs Offering a Comparable Degree at Other UC Campuses Response from Greg Pottie, UCLA Response from Marco Rolandi, UC Santa Cruz Response from Jeff Bokor, UC Berkeley 2. Appendix B: BioBibs from Involved Faculty Eric Fullerton Boubacar Kante Vitaliy Lomakin Zhaowei Liu Gabriel Rebeiz Daniel Sievenpiper 3. Appendix C: Catalog Copy with Applied Electromagnetics Program Description

13 Appendix A: Feedback from Chairs of Programs Offering Comparable Degree at Other UC Campuses 1) Chairs and program directors to whom the program was sent for comments: Greg Pottie, UCLA Marco Rolandi, UC Santa Cruz Jeff Bokor, UC Berkeley James Demmel, UC Berkeley Nadir Dagli, UC Santa Barbara Ilya Dumer, UC Riverside H. Kumar Wickramasinghe, UC Irvine Saif Islam, UC Davis Rajeevan Amirtharajah, UC Davis 2) Text of the letter that was sent: Dear Professor xxxx, At UCSD we are in the process of proposing a new graduate program in Applied Electromagnetics leading to M.S. and Ph.D. degrees within the Electrical and Computer Engineering Department of the Jacobs School of Engineering. In accordance with the review policy established by the systemwide Coordinating Committee of Graduate Affairs (CCGA), I am providing you, as the Chair of an existing comparable program, with a copy of the current draft of our proposal. We would be very grateful for any feedback you may wish to offer us, so that the proposal may be made as strong as possible before submission. As background, please understand that the format and contents of the proposal follow the required outline found in the CCGA Handbook, and that internal and external reviewers will later be asked to address the following four points when examining our final submission: Quality and academic rigor of the program Adequacy of the size and expertise of faculty to administer the program Adequacy of the facilities and budgets Applicant pool and placement prospects for the graduates If you wish to provide feedback, we would like to receive it within four weeks of the date of this letter, since we expect to submit the proposal for campus review at that time. 3) Feedback received: A) Feedback from Greg Pottie, Chair of Electrical and Computer Engineering Dept., UCLA Dear Dan The proposal looks fine to me. My only confusion is in the number of units. I assume the total is for a Ph.D. You might separately note the unit requirements for MS and PhD, and that they are in accordance with all programs in the ECE department. With respect to "applicant pool" and placement, another reason this is timely now is the coming revolution in high frequency communications, needed to support autonomous systems. I'm really excited by the new kinds of devices that are being developed to enable high efficiency and small size. It's an exciting time for E&M. I must admit some surprise that there is actually some systemwide committee that even looks at this stuff; for our graduate "tracks" nothing special appears on the transcript and so no approvals were ever sought. (Degree

14 requirements to the best of my recollection only went as far as graduate council). We're going through a process now that involves UCOP only because we're changing the name of our degrees (along with the department) to ECE. In any case, should they want a list of reviewers, Yahya would probably be the best from here, given he was also once the Chair. Regards Greg Pottie Response Greg, Thanks for your response. I ll make sure to clarify the units for MS versus PhD. About the system-wide aspect, this committee is only within UCSD, but we re required to ask for input from the chairs of all other similar programs within UC. I m copying Yahya as well so that he can provide comments as well. Thanks again! - Dan B) Feedback from Marco Rolandi, Chair of Electrical Engineering Dept., UC Santa Cruz On Sun, Aug 27, 2017 at 8:55 AM Marco Rolandi <mrolandi@ucsc.edu> wrote: Thanks for sending this along. I just became chair and it is always a learning opportunity to read about new programs. This sounds like a very interesting program. It could be useful to project student demand for classes and employer demand for graduates as part of the planning phase. Would a graduate from applied electromagnetic be more attractive to companies or research groups for PhD? I hope this helps! Marco. On Aug 27, 2017, at 8:58 AM, Marco Rolandi <mrolandi@ucsc.edu> wrote: More data from market surveys, hard numbers for placements, exit interviews, surveys of potential employers, surveys of perspective students may help. Response: Marco, Thanks for your feedback! In fact, we already do have some of this data since the program has been operating unofficially for several years, with students taking their prelim in this area by exception. Regarding placement in companies versus research groups, most of the recent students have taken jobs in commercial companies, although there have been some who have gone to government labs or academia. We will assemble some of that data for the application. - Dan C) Feedback from Jeff Bokor, Chair of the Electrical Engineering Division in EECS, UC Berkeley Dan, Looks like a good program! Good luck. Best wishes, Jeff Bokor Response Thanks!

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16 UCSD ACADEMIC BIOGRAPHY Section I Personal Data Name: Last, First, Middle Fullerton, Eric, Edward Department ECE, NE and CMRR Title(s) Professor Previous Applicable Employment Please show a full account of your time from the date of your first academic (or otherwise relevant) employment up to the present, including any periods when you may not have been employed. Indicate part time appointments. Show salary or approximate annual earnings in all cases. Please include all previous University of California employment. You may provide supplementary information if necessary. Period of employment From/To Institution, firm or organization of employment Location Rank, title, or position UC San Diego La Jolla, CA Research Assistant $12, Argonne National Argonne, IL Post doctoral $32,000 Lab Scientists Argonne National Argonne, IL Assistant Physicist $50,000 Lab Argonne National Argonne, IL Physicist $57,000 Lab IBM Almaden San Jose, CA Research Staff $190,000 Research Center Member Hitachi GST San Jose, CA Manager/ Research $210,000 Staff Member 2007-present UC San Diego La Jolla, CA Chaired Professor $173,100 Approximate annual salary

17 Education Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 School, college, university, or hospital (internship, residency, or fellowship) Dates of attendance Location Major subject or field Degrees or certificates Date received Harvey Mudd College Claremont, CA Physics BS 5/84 UC San Diego La Jolla, CA Physics Ph.D. 9/91 Please indicate areas of sub-specialization or board certification, if any. Also include a list of special licenses or permits and the dates received. Section II Professional Data Provide a list of your activities, with dates of award or service, in each of the following seven categories (a) University Service (Including Academic Senate, Departmental, College, University-wide). Member Ad Hoc Committee for Academic Review (twice). Development of Graduate curriculum, Department of Nanoengineering Executive Committee member of CMRR Chaired the ECE space committee (08-10) Served on the space/safety committee (10-11) Course coordinator for ECE 103 and 107 (09-11) Served on the ECE Faculty Council Committee (08-11) Served on and/or chaired numerous ECE ad hoc committees on academic advancement Served on the NE committee that developed the Undergraduate Curriculum Served and/or chaired NE ad hoc committees on academic advancements Served on the Academic Senate Subcommittee on Research (09-12) Served on the Academic Senate Academic Integrity Review Board (09-11) Served on the Academic Senate Chemical Safety and Surveillance Committee (10-11) Served on the CMRR executive committee Chaired CMRR ad hoc committee on academic advancement Hosted a number of speakers for the CMRR seminar series Served as director of CMRR July 1, 2011 present Hosted two visiting professors to CMRR, Prof. Aletta Prinsloo from University of Johannesburg, South Africa who traveled on an APS International Travel Grant Award & Prof. Young Kim, President, Korea University Research & Business Foundation, Korea University Served on the Academic Senate Subcommittee on Research (09-12) (CONTINUED) Served on the Academic Senate Academic Integrity Review Board (09-13) (CONTINUED) Served as Director of CMRR July 1, 2011 present (CONTINUED) Member of the ECE Faculty Awards Committee (11-14) Chaired ECE Faculty Recruitment Committee (12-13) Chaired ECE Space committee (12-14) Member ECE Faculty Recruitment Committee (13-14) Chaired ECE ad hoc committee on Journals/Letters (13) Chaired ECE ad hoc committee on Journals/Letters (13) Member ORU Subcommittee on Metrics (14) Faculty mentor for Drew Hall Hosted Charles Sheppard (visiting scholar) Hosted S. Mangin (visiting scholar) Hosted Daniel Steil (visiting scholar) Member ECE ad hoc committee for research advancement (11) Chaired ECE ad hoc committee for faculty advancement (11) Member NE ad hoc committee for faculty appointment (11) Member NE ad hoc committee for faculty advancement (11) Member ECE ad hoc committee for faculty advancement (11) Member ECE ad hoc committee for faculty appointment (12) Chaired ECE ad hoc committee for faculty appointment (12) Member NE ad hoc committee for faculty advancement (12) Chaired NE ad hoc committee for faculty advancement (12)

18 Chaired ECE ad hoc committee for Reappointment of Adjunct Professor (12) Chaired ECE ad hoc committee for faculty appointment (13) Chaired ECE ad hoc committee for faculty appointment (13) Chaired ECE ad hoc committee for faculty advancement (13) Member ECE ad hoc committee for appointment Adjunct Professor (13) Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 (b) Memberships (Scholarly societies, professional boards, civic organizations, etc.). American Physical Society Fellow Materials Research Society Member Neutron Scattering Society of America Member IEEE Fellow American Vacuum Society Member (c) Honors and Awards (Include the dates they were received). Mark new awards with the word NEW at the end of the entry. Alfred B. Focke Award, Harvey Mudd College Argonne s Exceptional Performance Award, Argonne National Laboratory Fellow of the American Physical Society IBM First Plateau Invention Achievement Award IBM Outstanding Technical Achievement Award IBM Invention Achievement Award IBM Second Plateau Invention Achievement Award IBM Third Plateau Invention Achievement Award IBM Fourth Plateau Invention Achievement Award Hitachi GST Gold Patent Award Hitachi GST Gold Patent Award Arfken Scholar-In-Residence at the Department of Physics, Miami University Senior Member, IEEE 2007 Honorary Doctorate Award (Docteur Honoris Causa) from Université Henri Poincaré, Nancy France 2011 Fellow of the IEEE 2011 American Institute of Physics (AIP) Prize for Industrial Applications of Physics (d) Contracts and Grants Please provide the following information for current contract and grants: Title Rigaku X-Ray Diffractometer-Equipment donation Magnetic Transition Metal Nanowires ARRA MRI-R2:Acquisition of Electron Beam Writer for Southern California Recovery Investment in Nanotechnology (SCRIN) Interplay of reversal field and thermal stability in composite patterned media. Neutron and X-Ray Studies of Spin and Charge Manipulation in Magnetic Nanostructures Materials Research for STT-MRAM Granting Agency Amount of Total Award (include indirect costs) Time period of contract/grant Hitachi Corporation 70,000 09/15/08- open PI National Science Foundation 480,000 08/15/09-07/31/13 PI Role, e.g. PI, coinvestigator, project leader, etc (If possible, list all co- PI s and corresponding share of total award (total must = 100 %)) National Science Foundation 1,960,000 10/01/09-03/31/13 Co-PI (20%) with Fainman, Ren, Schuller, Christman INSIC 35,000 12/10/09-12/09/10 Co-PI (50%) with Lomakin Department of Energy 960,000 02/01/10-01/31/13 Co-PI (50%) with Sinha Qualcomm 150,000 04/01/10-03/31/12 PI

19 Electrical Control of Nanoscale Magnetic Device Materials World Network: Novel Magnetic Materials for Spin-torque Physics and Devices Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 National Science Foundation 360,000 05/01/10-04/30/13 PI National Science Foundation 330,000 08/15/10-07/31/13 (extended) Magnetic Media for BPR IDEMA 17,500 02/01/11-open PI Materials World Network: New functionality in complex magnetic structures with perpendicular anisotropy Modeling characterization and design of highfrequency magnetic material Magneto-photonics at the nanoscale for HAMR Multi-Physics Design of Recording System for HAMR Novel Magnetic Materials for Spin Torque Physics NSF $450,000 09/01/ /31/2016 Maxims Lab $330,000 10/02/ /01/2014 IDEMA/ASTC $110,000 07/01/ /30/2014 IDEMA/ASTC $65,000 10/07/ /30/2014 Partner University Fund via NY University $60,000 08/01/ /31/2014 PI Co-PI (50%) with Lomakin Co-PI (50%) with Lomakin PI (33.3%) with Lomakin and Fainman PI (33.3%) with Lomakin and Fainman PI and Devices Near-Field Nanophotonics ONR $4,500,000 07/29/2013- Co-PI (25%) with for Energy Efficient 07/28/2018 Radic, Yu, and Computing and Fainman Communication (NECom) CMRR Fullerton Sponsor CMRR $134,100 07/01/11- open PI Projects CMRR Endowment CMRR $143,500 07/01/11- open PI Strain-induced modification National Science Foundation 640,000 07/01/14-06/30/18 PI with Oleg of nano scale materials Sphyrko properties Qualcomm FMA Qualcomm 75,000 07/01/14-06/30/15 PI General Atomics General Atomics 35,200 07/11-12/31/14 PI Neutron and X-Ray Studies of Spin and Charge Manipulation in Magnetic Nanostructures Department of Energy 1,080,500 02/01/13-01/31/16 Co-PI (50%) with S. Sinha

20 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 (e) External Professional Activities (Examples include, but are not limited to, presentation of papers and lectures, technical service to organizations and agencies, acting as a reviewer of journal or book manuscripts or contract and grant proposals, or professional committee service). Principle Investigator: Approved program, Advanced Light Source, LBNL ( ) Lead PI on the scientific case proposal for the upgrade of beamline 4-ID-C at the Advanced Photon Source (2011). Chair: San Diego Chapter of the IEEE Magnetics Society (2010-present) Program co-chair: IEEE Intermag 2009, Sacramento, CA 2009 Local co-chair: 21st Magnetic Recording Conference 2010 Co-organizer: Focus sessions on magnetic nanostructures and heterostructures, APS March Meeting Tutorial on Magnetic and magneto-transport properties of metallic thin films and superlattices, APS March Meeting th Int. Conf. on the Physics of X-ray Multilayer Structures, Breckenridge, CO Symposium on synchrotron radiation and materials science, E-MRS, Strasbourg, Physics by the Bay IV conference, UC Berkeley, Oct. 1, International Workshop on Spin Transfer (IWST 2006), Nancy, France Symposium I, MRS Fall Meeting 2007, Boston MA. Focus session on Spin Transport & Magnetization Dynamics in Metal Based Systems, APS March Meeting 2008 Nano-Magnetism and Beyond Symposium, Oct. 10, 2009, Chicago, IL Focus session: Novel Magnetic Devices, APS March Meeting 2010 International Workshop on Spin Transfer (IWST 2011), Nancy, France 2011 International Workshop on Advanced Micromagnetics (IWAM), La Jolla, CA 2012 International French-US Workshop: Toward low-power spintronic devices, La Jolla, CA 2013 Executive committee APS Division of Materials Physics, APS Topical group on Magnetism and its Applications (GMAG), Selection committee Vice Chair: selection committee for the David Adler Lectureship Award Chair: selection committee for the David Adler Lectureship Award Fellowship committee APS Division of Materials Physics, 2002 Program committee: Workshop on Magnetism in Lower Dimensional Systems, Argonne, June 19-24, rd Int. Conf. on the Physics of X-ray Multilayer Structures, Breckenridge, CO th Int. Conf. on the Physics of X-ray Multilayer Structures, Chamonix, France th Int. Symposium on Metallic Multilayers (MML 04), Boulder, CO th Joint MMM/Intermag Conference, Anaheim, CA January 2004 IEEE Intermag 2008 Conference, Madrid, Spain IEEE Intermag 2011 Conference, Taipei, Taiwan 12 th Joint MMM/Intermag Conference, Chicago, IL, January 2013 IEEE Intermag 2014 Conference, Dresden Germany International Conference on Magnetism, 2015, Barcelona, Spain Steering committee: The 8 th Joint MMM-Intermag Conference, San Antonio TX, th Conference on Magnetism and Magnetic Materials, Seattle, WA, th Conference on Magnetism and Magnetic Materials, Tampa Bay, FL, Nominating committee APS Topical Group on Magnetism and its Applications, APS Division of Materials Physics, 2000 Panelist NSF FY 2003 Nanoscale Interdisciplinary Research Teams (NIRT) review panel. NSF FY 2005 Nanoscale Interdisciplinary Research Teams (NIRT) review panel.

21 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 NSF Site Visit of the Materials Research Science and Engineering Center at the University of Alabama, Nov , 2005 NSF ECCS Division, FY 2008 Unsolicited Panel B-March 6-7, 2008 review panel NSF DMR-Condensed Matter Physics Review Panel, 2011 NSF Professional Development Workshop in Ceramics, May 23-24, NSF-ECCS-EPMD Unsolicited Proposal Panel on January 23-24, 2012 NSF-ECCS-EPMD Unsolicited Proposal Panel on March 18-19, 2013 DOE review of the Materials Sciences programs at Ames Laboratory, May 21-22, 2013 NSF Magnetic Materials SBIR/STTR Phase I Panel, March 6, 2013 National Academy of Sciences Panel for Review of the Material Measurement Laboratory at the National Institute of Standards and Technology, June 17-19, 2014 Judge/Chair: MRS graduate student awards, 2001 MRS Spring meeting MRS graduate student awards, 2002 MRS Spring meeting MRS graduate student awards, 2003 MRS Spring meeting Session Chair: 40 th Magnetism and Magnetic Materials, Philadelphia, PA Spring meeting of the Material Research Society, San Francisco, CA, April 17-21, Acta Met. meeting on Novel Magnetic Structures and Properties, Santa Fe NM, Intermag 96, Seattle, WA, April 9-12, st Magnetism and Magnetic Materials, Atlanta, GA th International Conference on the Physics of Transition Metals, Osaka Japan, APS March Meeting, Kansas City, MO Joint InterMag-MMM meeting, San Francisco, CA APS March Meeting, Los Angeles, CA rd International Symposium on Metallic Multilayers, Vancouver, BC th Conference on Magnetism and Magnetic Materials, San Jose, CA Nov APS March Meeting, Atlanta, GA Intermag 00, Toronto, Canada The 8 th joint MMM-Intermag, San Antonio, TX APS March Meeting, Seattle, WA th Conference on Magnetism and Magnetic Materials, Seattle WA, International Symposium on Advanced Magnetic Materials-2003, Yokohama, Japan, th Conference on Magnetism and Magnetic Materials, Jacksonville FL, 2004 APS March Meeting, Los Angeles, CA Intermag 2006, San Diego, CA nd Conference on Magnetism and Magnetic Materials Conference, Tampa, FL 2007 MRS Fall meeting 2007, Boston, MA joint Intermag-MMM meeting, Washington, DC 2010 APS March Meeting, Dallas, TX 2011 MRS Spring Meeting, San Francisco, CA 2012 Magnetic Single Nano-Object Workshop & School (M-SNOWS 12), Les Houches, France, Feb. 5-10, 2012 Advisory Committee: Conference on Magnetism and Magnetic Materials (53 rd ), 2008 Joint MMM/Intermag Conference (11 th ), 2010 Conference on Magnetism and Magnetic Materials ( ) (re-appointment: Dec Nov.2013) The Magnetic Recording Conference (TMRC) Adcomm committee 2010-present Refereed proposals for NSF, DOD and DOE (CONTINUED) Proposal evaluation board member for the Center for Nanoscale Materials at Argonne National Laboratory Proposal evaluation board member for neutron scattering science instruments at the Oak Ridge National Laboratory APS Int'l. Travel Grant Award Program Review Committee Nominated and ran for the Chair of the Division of Materials Physics at APS. JOURNAL ACTIVITY Advisory Editor: Journal of Magnetism and Magnetic Materials

22 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 Guest Editor: Topical Issue on New Trends in Spin Transfer Physics, Eur. Phys. J. B 59 (2007) Referee/Review: Nature 2007: November; Nature Materials 2008: April (2); Physical Review Letters, Physical Review B, 2007: January, February, March (2), November 2008: May, August Applied Physics Letters 2007: June, September, November (3), 2008: January, April, May (2), August (3) Journal of Magnetism and Magnetic Materials, 2008: March, May, 2007: January, August, October IEEE Transactions on Magnetics, 2008: February, March 2007: March, September (2), IEEE Transactions on Nanotechnology 2008: August; Thin Solid Films; Journal of Materials Research; Journal of Physics: Condensed Matter; Journal of Vacuum Science & Technology; Journal of Applied Physics 2007: June, July, October 2008: February; Phys. Stat. Sol.; Journal of Crystal Growth 2008: August; Advanced Materials2008: August Refereed for Nature, Nature Materials, Nature Physics, Nature Nanotechnology, Physical Review Letters, Nano Letters, Physical Review B, J. Mat. Sci, IEEE Trans. Mag., J. Magn. Magn. Mater., J. Applied Physics, Appl. Physics Lett. Referee Israel Science Foundation Invited Talks (conferences and workshops): 1. Magnetic properties of Fe/Cr and Fe/Cu superlattices 35 th Annual Conference on Magnetism and Magnetic Materials Fall, Quantitative structural and chemical analysis of thin films and superlattices Tutorial, 1992 March Meeting of the American Physical Society, Indianapolis, IN, March 15, Structure and magnetism of sputtered superlattices New Horizons: A workshop on the state of the art in neutron reflectometry, Gaithersburg, MD, Dec. 9, Characterization of interface structure in multilayers using specular x-ray reflectance Physics of X-ray Multilayer Structures, Optical Society of America, Jackson Hole, WY, March 14-17, Interlayer coupling in novel superlattice structures 1994 March Meeting of the American Physical Society, Bull. Am. Phys. Soc. 39, 556 (1994). 6. Magnetic phase transitions in epitaxial Fe/Cr superlattices 1995 Spring Meeting of the Material Research Society, San Francisco, CA, April 17-21, Magnetic phase transitions in epitaxial Fe/Cr superlattices XVIII Brazilian Meeting of Condensed Materials, Caxambú, Brazil, June 6-10, Magnetic ordering transition at the Cr Néel temperature in Fe/Cr(001) superlattices IV International Conference on Surface X-Ray and Neutron Scattering, Lake Geneva, WI, June 26-30, Quantitative x-ray diffraction from thin films and superlattices 1 st Michigan State Univ. workshop on the structure of metallic multilayers, East Lansing, MI, July 10, Quantitative x-ray diffraction from thin films and superlattices IV International Conference on Advanced Materials 1995, Cancun, Mexico, Aug Sept. 1, New physics in epitaxial Fe/Cr superlattices 1 st Gordon Conference on Magnetic Nano-structures, Irsee, Bavaria, Sept , Suppression of biquadratic coupling at the Cr Néel temperature in Fe/Cr(001) superlattices 40 th Annual Conference on Magnetism and Magnetic Materials, Philadelphia, PA, Nov. 6-9, Fundamental magnetic and magneto-transport properties of ultrathin metallic structures Tutorial, 1996 March Meeting of the American Physical Society, St. Louis, MO, March 17, The role of Cr ordering on the magnetic and transport properties of Fe/Cr superlattices Intermag, Seattle WA, April 9-12, Structure and magnetism of epitaxial rare-earth-transition-metal films NATO-ASI school on Magnetic Hysteresis in Novel Magnetic Materials, Mykonos, Greece, July 1-12, Growth and magnetic ordering of epitaxial Fe/Cr superlattices American Vacuum Society-Rocky Mountain Chapter Meeting, Denver, CO Aug. 22, Spin-density-wave antiferromagnetism of Cr in Fe/Cr(001) superlattices 5 th International Conference on the Physics of Transition Metals, Osaka, Japan, Sept , Argonne s results on the magnetic state of Cr in Fe/Cr superlattices Workshop on the Magnetic State of Cr in Fe/Cr/Fe, NIST, Gaithersburg, MD, Nov. 6, Structure and magnetism of epitaxial Fe/Cr superlattices Fourth International Conference on Composites Engineering, Hawaii, July 6-11, General approach to the epitaxial growth of RE-TM thin films and heterostructures American Vacuum Society, San Jose, CA, Oct , X-Ray diffraction and reflectivity analysis 4 th international conference on the Physics of X-ray Multilayer Structures, Breckenridge, CO, 1998.

23 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ Exchange-spring behavior in epitaxial hard/soft magnetic heterostructures 1998 March Meeting of the American Physical Society, Los Angeles, CA, March 17, Exchange-spring behavior in epitaxial hard/soft magnetic heterostructures 1998 March Meeting of the American Physical Society, Los Angeles, CA, March 17, Magnetoresistance: Physics and Applications Tutorial, 1998 March Meeting of the American Physical Society, Los Angeles CA, March 15, Neutron determination of Fe and Cr ordering in Fe/Cr(001) superlattices The Advanced Study Institute meeting on Exploration of Subsurface Phenomena by Particle Scattering Naval Postgraduate School, Monterey, CA, October 19-23, Multilayers Neutron and X-ray Scattering Summer School, Argonne National Laboratory, Aug , Soft X-ray characterization of structural and magnetic heterogeneity in magnetic films and recording media 44 th Annual Conference on Magnetism and Magnetic Materials, San Jose, CA, Nov , Physical limits of magnetic thin film technologies Plenary speaker, 45 th South African Inst. of Physics, Johannesburg, South Africa, July 5, Thin film and multilayer structures National School on Neutron and X-ray Scattering, Argonne National Laboratory, Aug , Growth, characterization and recording performance of Co-X/Pd multilayer record media The 5 th Perpendicular Magnetic Recording Conference, Sendai, Japan, Oct , Incoherent and coherent scattering from nanocomposite magnetic films used for high-density magnetic recording Workshop on Soft X-Ray Speckle: Nanoscale Dynamics in Liquids and Solids, Stanford, CA, Oct Antiferromagnetically-coupled magnetic recording media The 8 th joint MMM-Intermag Conference, San Antonio, TX, Jan. 7-11, Bits of the future, High-density magnetic recording media IEEE Magnetics Society Lecture, La Jolla, CA, Feb. 8, Thermally stable magnetic media based on antiferromagnetically coupled layers 2001 March Meeting of the American Physical Society, Seattle, WA, March 14, Antiferromagnetically-coupled magnetic media for thermally-stable high-density recording 2001 Materials Research Society Spring meeting, San Francisco, CA, April 18, Multilayers National School on Neutron and X-ray Scattering, Argonne, IL, Aug. 24, Advance magnetic recording media, beyond the superparamagnetic limit IEEE Magnetics Society Lecture, Santa Clara, CA, Sept. 11, Antiferromagnetically-coupled recording media DISKCON 2001, San Jose, CA, Sept. 19, Antiferromagnetically-coupled magnetic media layers for thermally-stable high-density recording IUVSTA 15 th International Vacuum Congress, San Francisco, CA, Oct. 28-Nov. 2, Critical issues in magnetic recording technologies Workshop on Spectroscopies of Electronic Materials: Correlated Electrons and Nanoscale Phenomena Advanced Light Source, Lawrence Berkeley National Laboratory, Oct. 16, Domain structure in LaFeO3 thin films and its role on exchange coupling 46 th Conference on Magnetism and Magnetic Materials, Seattle WA, Nov. 15, Soft x-ray characterization of perpendicular recording media North American Perpendicular Magnetic Recording Conference, Coral Gables, FL, Jan. 7-9, Nanotechnology in magnetic data storage 4 th EC/NSF Workshop on Nanotechnology, Grenoble, France, June 12-14, Magnetic x-ray scattering as a probe of recording media European Materials Research Society Meeting, Strasbourg, France, June 18-21, Coupled magnetic media: the promises and the pitfalls The Magnetic Recording Conference 2002, Santa Clara, CA, August (2002). 46. Magnetic x-ray scattering from nanocomposite magnetic films used for high-density recording The 7 th International Conf. on Surface X-ray & Neutron Scattering, Lake Tahoe, CA Sept (2002). 47. Magnetic small-angle soft x-ray scattering as a probe of nanocomposite magnetic films Fall MRS meeting, Boston, MA (2002). 48. Soft x-ray characterization of perpendicular recording media North American Perpendicular Magnetic Recording Conference, Monterey, CA, Jan. 7-9, Domain and domain wall structure in antiferromagnetic films with perpendicular anisotropy 2003 March Meeting of the American Physical Society, Austin, TX, March 4, Thermal energy and the potential limits of magnetic nanostructures Nanoscience: Controlling Interactions in Complex Materials, Workshop at the 12 th Advanced Photon Source Users Meeting, Argonne, IL, May 1, Antiferromagnetically-coupled magnetic media layers for high-density recording

24 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 5 th Joint UK Magnetics Workshop, University of Glasgow, July 2-4, Resonant magnetic x-ray imaging and scattering as probes of heterogeneous thin films International Symposium on Advanced Magnetic Materials-2003, Yokohama, Japan, Oct. 8-13, Antiferromagnetically-coupled perpendicular anisotropy films DOE CSP Nanocomposite magnetic materials 2003 annual workshop, Monterey, CA, Oct , Soft x-ray techniques for characterizing magnetic nanostructures LANSCE Neutron Scattering Winter School, Los Alamos National Laboratory, Jan. 14, Nano-structured magnetic materials for high-density recording Workshop on nanomagnetism using x-ray techniques, Lake Geneva, WI, Aug. 29 Sept. 1, Resonant x-ray scattering from nano-structured magnetic recording materials The 2 nd US-Japan Workshop on Synchrotron Radiation and Nanoscience, San Diego, CA, April 4-6, Nano-structured magnetic materials: novel physics and emerging technologies National Nanotechnology Initiative Workshop on X-rays and Neutrons: Essential Tools for Nanoscience Research, Washington D.C., June 16-17, Probing magnetism at the nanoscale: new physics and emerging technologies Workshop on Soft X-ray Scattering from Hard and Soft Matter, LBNL, Berkeley, CA, Sept. 31, Current-induced magnetization reversal and domain formation in nanopillars with perpendicular anisotropy California Symposium on Nanomagnetism, UC Irvine, CA, April 10-11, Magnetic reversal and domain structure in perpendicular AF-coupled films Plenary speaker, 5 th Int. Conf. on Synchrotron Radiation in Materials Science, Chicago, IL, July 31, Magnetism at the Nanoscale: Applications Tutorial, 2007 March Meeting of the American Physical Society, Denver, CO, Spin-torque-induced reversal in nanopillars containing perpendicularly magnetized layers 2007 March Meeting of the American Physical Society, Denver, CO, Exchange spring reversal in high anisotropy composite materials 52 nd Magnetism and Magnetic Materials Conference, Tampa, FL, Nov. 5-9, Controlled Nano-Magnets: Opportunities for novel sensors, memories and spintronic devices DSRC - Summer Conference - DSRC State of the Art Nanofabrication, Santa Cruz, CA, Current and field induced reversal of magnetic islands with perpendicular anisotropy spintronics Symposium of the SPIE Optics & Photonics Conference, San Diego, CA, August 10-14, Magnetic multilayers National School on Neutron and X-ray Scattering, Argonne, IL, Oct. 8, Spin torque devices with perpendicular magnetic anisotropy Workshop on "Materials for spin transfer torque MRAM", Univ. of Alabama, Tuscaloosa AL, Oct. 15, Influence of spin transfer torques on the Stoner-Wohlfarth astroid 53 rd conference on Magnetism and Magnetic Materials, Austin, TX Materials requirements for next-generation magnetic storage and memory applications: Part I International School on Magnetic Single Nano-Object, Nancy France, Nov. 23, Materials requirements for next-generation magnetic storage and memory applications: Part II International School on Magnetic Single Nano-Object, Nancy France, Nov. 23, Magnetic spectroscopies National School on Neutron and X-ray Scattering, Argonne, IL, June 11, Spin transfer torques in high anisotropy magnetic nanostructures (Keynote speaker) Trends in Nanotechnology TNT 2009, Barcelona, Spain, Sept. 7-11, Spin transfer torques in high anisotropy magnetic nanostructures Nanoscale Magnetism, 2009 Advanced Light Source User s Meeting, Berkeley, CA, Oct , Spin-torque behavior of perpendicular anisotropy nanopillar devices AVS 56 th International Symposium and Exhibition, San Jose, CA, Nov. 8-13, Magnetic spectroscopy National School on Neutron and X-ray Scattering, Argonne, IL, June 17, Spin-torque phenomena in high-anisotropy magnetic nanostructures (Plenary speaker) IEEE 7 th International Symposium on Metallic Multilayers (MML2010) Berkeley CA, Sept , Magnetic information technologies: Challenges and research opportunities. The 55 th Magnetism and Magnetic Materials Conference, Atlanta, GA, Nov , Bits of the future: Impact of GMR on magnetic information storage Colloque 2010 de l Institut Jean Lamour Nanosciences, Nancy University, Jan Current induced modification of the hard layer in perpendicular anisotropy spin valves IWST 11, International Workshop on Spin Torque 2011, Nancy France, Jan Spin-torque phenomena in high-anisotropy magnetic nanostructures MORIS-2011 Conference, Nijmegen, the Netherlands, June X-ray imaging of structure and magnetism in thin films and nanowires

25 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 COSMIC at the ALS: New Frontiers in Soft X-Ray Coherent Scattering and Imaging Workshop, Berkeley, CA Aug. 2-3, Spin-torque phenomena in high-anisotropy magnetic nanostructures Symposium on Physics at the Nanoscale, Madrid, Spain, Oct , Controlled growth and magnetic properties of CVD grown Ni nanostructures Magnetic Single Nano-Object Workshop & School (M-SNOWS 12), Les Houches, France, Feb. 5-10, AIP Prize for Industrial Applications of Physics Lecture: Controlled exchange in recording media and spintronic devices, 2012 March Meeting of the American Physical Society, Boston, MA, Feb. 27 Mar. 2, Spin Transfer Torque Phenomena in Perpendicular Anisotropy Devices 2012 Materials Research Society Spring Meeting, San Francisco, CA, April 9 24, Energy-assisted writing of high-anisotropy nanostructures The Magnetic Recording Conference (2012), San Jose, CA, Aug , Magnetic nanostructures for advanced storage and memory applications (Plenary speaker) Int. Conf. on Electronic Materials and Nanotechnologies for Green Environment, Jeju Isl., Korea Sept , Field and current reversal of perpendicular spin-torque devices Int. Conf. on Electronic Materials and Nanotechnologies for Green Environment, Jeju Isl., Korea Sept , The physics of perpendicular anisotropy devices The 16th Joint Inter-laboratory Workshop on Nano-Magnetics, Jeju Island, Korea Sept , Light induced magnetization reversal of high-anisotropy TbCo alloy films 1 st Int. Workshop on Spin-Orbit Induced Torque, KAUST, Thuwal, Saudi Arabia, Feb , Materials challenges for advanced magnetic storage and memory applications (Plenary speaker) XXII International Materials Research Congress 2013, Cancun, Mexico, Aug , Characterization of engineered magnetic materials at nanometer spatial scales and ultra-fast time scales The ALS Cross-Cutting Review of Magnetism and Spintronics, Berkeley, CA, Oct , Engineered materials for all-optical helicity-dependent magnetic switching 58 th annual conference on Magnetism and Magnetic Materials (MMM), Denver, Co, Nov. 8-12, Engineered materials for all-optical helicity-dependent magnetic switching 2014 March Meeting of the American Physical Society, Denver, Co, Mar. 3 Mar. 8, Bits of the Future: Emergent Physics for Advanced Magnetic Information Technologies (Keynote speaker) 23 rd ASME Annual Conference on Information Storage and Process Systems, Santa Clara CA June 23, Bits of the Future: Emergent Physics for Advanced Magnetic Information Technologies (Plenary speaker) The 59 th Annual Conference of the South African Institute of Physics, Johannesburg South Africa, July 7-11, 2014 Invited Colloquium and Seminars Advanced Photon Source, Argonne, IL Amoco Research Center, Naperville IL Bell Labs, Murray Hill NJ Brookhaven National Laboratory CMRR, UC-San Diego, La Jolla, CA (2) Dartmouth College, Hanover, NH Harvey Mudd College, Claremont, CA IBM Almaden Research Center (3) IBM Zurich Research Center Instituto Militar de Engenharia, Rio de Janeiro, Brazil Lawrence Berkeley National Lab, Berkeley, CA Lawrence Livermore National Laboratory Linköping University, Linköping, Sweden Materials Science Department, Argonne, IL (4) Miami University, Oxford Ohio (2) Michigan State Univ., East Lansing MI Montana State Univ. Bozeman, MT Northern Illinois Univ. De Kalb IL Northwestern University, Evanston, IL (2) Simon Fraser University, Burnaby B.C. (2) Stanford University, Palo Alto, CA Tulane University, New Orleans LA UC San Diego, ECE, La Jolla, CA UC San Diego, Physics, La Jolla, CA Univ. of California, Santa Cruz. University of British Columbia, Vancouver B.C. University of California-Irvine, Irvine CA University of California-Berkeley, Berkeley, CA University of California-Davis, Davis, CA University of Idaho, Moscow, ID University of Minnesota, Minneapolis MN (3) University of Missouri, Columbia MO University of Nebraska-Lincoln, Lincoln NE University of Oregon, Eugene OR (2) University of Tsukuba, Tsukuba, Japan University of Washington, Seattle, WA W. Michigan Univ., Kalamazoo MI West Virginia University, Morgantown, WV Department of Physics, University of California, San Diego, Feb. 15, 2007 Bits of the Future: Magnetic recording beyond the superparamagnetic limit CMRR, University of California, San Diego, March 5, 2007 Bits of the Future: Magnetic recording beyond the superparamagnetic limit Department of Physics, Harvey Mudd Colleg, April 23, 2007

26 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 Characterizing magnetic materials on the nano-scale using synchrotron x-rays Department of Physics, Arizona State University, March 20, 2008 Institut d Electronique Fondamentale, University Paris, Sud, July 21, 2008 Hitachi GST Science Colloquium, San Jose, CA, Dec. 3, 2008 UCSD, Condensed Matter Physics Seminar, Nov. 18, 2009 University of British Columbia, Physics Department Colloquium, Jan. 7, 2010 Simon Fraser University, Physics Department Colloquium, Jan. 8, 2010 Massachusetts Institute of Technology, Materials Science Colloquium, Feb. 4, 2010 NanoGune, San Sebastian, Spain, Sept. 5, 2010 University of California, Berkeley, Condensed Matter Physics Seminar, Nov. 4, 2010 Arizona State University, Nanoscale Science seminar, Feb. 21, 2011 University of Minnesota, Electrical Engineering Colloquium, April 7, 2011 University of Minnesota, Magnetics Seminar, April 8, 2011 Nancy Université, France, June 16, 2011 University of Kaiserslautern, Germany, June 15, Harvey Mudd College, Physics Colloquium, Sept. 20, 2011 Miami University, Physics Colloquium, Nov. 30, 2011 Miami University, Special topics Seminar, Dec. 1, 2011 Argonne National Laboratory, Materials Science Division Seminar, Dec. 8, 2011 Iowa State University and Ames Laboratory, Physics Colloquium, Aug. 27, 2011 Korea University, Materials Science Seminar, Sept. 14, 2012 UCSD Condensed Matter Physics Seminar, Oct. 3, 2012 University Paris-Sud, Orsay France, Seminar, Dec. 18, 2012 UC Davis, Condensed Matter Physics Seminar, May 16, 2013 Brno University of Technology, Czech Republic, Sept. 26, 2013 University of Lorraine, Nancy France, Seminar, Oct. 2, 2013 University of California Riverside, Materials Science seminar, Dec. 4, 2013 UCSD NanoEngineering seminar, April 2, 2014 Stanford Institute for Materials and Energy Sciences Seminar, May 2, Presentations to Industrial research and development organizations: Western Digital; Fremont, CA, Dec. 4, 2007 Hitachi GST, San Jose, CA, Feb. 6, 2008 Northrop Grumman, Los Angeles, CA, May 28, 2008 Qualcomm, Inc, San Diego, CA Nov. 26, 2009 Hitachi GST, San Jose, CA, May 11, 2011 Samsung, Seoul, Korea, Sept. 13, 2012 Seagate, Minneapolis Minnesota, June 11, 2013 Seagate, San Jose, CA, June 18, 2013 (f) Most Significant Contributions to Promoting Diversity (Examples include, but are not limited to, developing strategies for the educational and professional advancement of students in underrepresented groups, contributions that promote equitable access and diversity in education, and in activities such as recruitment, retention, and mentoring.) Recruited Sergio Montoya to apply and attend UCSD Recruited Sheena Patel to apply and attend UCSD Established CMRR travel grants for URM students Chaired recruitment committee for hiring ECE faculty Boubacar Kante Chaired ad hoc committee for hiring ECE faculty Drew Hall Mentored the undergraduate research activities of female students Christie Thompson, Sheena Patel, Jennifer Sharma and Celeste Melamed at Harvey Mudd College (g) Other Activities (List those that do not fit into categories (a) (f) above, including community service). Awarded synchrotron beamtime for experiments at the Advanced Light Source at Lawrence Berkeley National Laboratory under Proposal Number: ALS Spatially resolved AC susceptibility measurements using resonant soft x-ray scattering. Awarded neutron scattering beamtime for experiments at The Manuel Lujan Jr. Neutron Scattering Center at Los Alamos National Laboratory under Proposal Number: #

27 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 Awarded synchrotron beamtime for experiments at the Advanced Light Source at LBNL Awarded synchrotron beamtime for experiments at the Advanced Photon Source at ANL Awarded neutron scattering beamtime for experiments at The Manuel Lujan Jr. Neutron Scattering Center, LANL Awarded neutron scattering beamtime for experiments at Spallation Neutron Source, LANL Memorandum of Understanding, Laboratoire de Physique des Materiaux at te Universite Henri Poincare,Nancy (France) 06/27/07-06/26/12 Memorandum of Understanding Universite Paris-Sud 11/07/22/08-07/21/13 Memorandum of Understanding CIC Nanogune Consolider at San Sebastian, Spain 01/08-01/2013 Joint Study Agreement, Hitachi Global Storage Technologies, 6/6/08-12/31/2010 (h) Student Instructional Activities 1. Please provide the following summary data for all courses taught during this review period: Course# Title Quarter # Enrolled %Recommend Instructor ECE 107 Electromagnetism 2014-Spring % NANO 168 Electr/Dielectr/Magnetic Propr 2014-Spring % MATS 251B/ Magnetic Materials: Principles 2014-Winter 11 87% (MATS), 100% (NANO), NANO 251A/ and Applications 100% (MAE) weighted avgs. MAE 265B NANO 203/ Nanoscale Synth and Characterization 2014-Winter 43 92% (NANO) ; 84 %(CENG) CENG 213 weighted avgs. NANO 168 Electr/Dielectr/Magnetic Propr 2013-Spring % ECE 107 Electromagnetism 2013-Spring % MATS 251B/ Magnetic Materials: Principles 2013-Winter /5 (92%) NANO 251A/ and Applications MAE 265B NANO 203/ Nanoscale Synth and Characterization 2013-Winter /5 (92%) CENG 213 ECE 107 Electromagnetism 2012-Spring % MATS 251B/ Magnetic Materials: Principles 2012-Winter 04 N/A (no files returned) NANO 251A/ and Applications MAE 265B NANO 203 Nanoscale Synth and Characterization 2012-Winter 13 N/A (not CAPED) 2. Please list all students mentored outside of the structured classroom setting. Please list by category (e.g., undergraduate research students, masters or doctoral candidates, postdoctoral or medical fellows, interns, residents) and indicate your role (e.g., thesis adviser, research adviser) for each student. For graduate students, indicate the year of their degree when appropriate. Undergraduate Research Students: Name of Student/Your role (thesis adviser, research adviser, etc.) Taryl Kirk, UCSD, research adviser, Christopher Doran, ECE, UCSD, research adviser, Isaac Caldwell, ECE, UCSD, research adviser, Caitlin Peck, ECE, UCSD, research adviser, Rene Claus, ECE, UCSD, research adviser, Jimmy Kan, Physics, UCSD, research adviser, David Lam, ECE, UCSD, research adviser, Trevor McCann, ECE, UCSD, research adviser, Jean Pierre Crovetto, ECE, UCSD, research adviser, Robert Asami, Physics, UCSD, research adviser, 2010-present

28 Ivan Yulaev, ECE, UCSD, research adviser, Trevor McCann (ECE), research advisor Jean Pierre Crovetto (ECE), research advisor Nigel White (Phys), research advisor Allan Yu (MAE), research advisor Sean Sanchez (MAE), research advisor Steven Kestler (MAE), research advisor John Tamkin (ECE), research advisor Yongjoon Youn (NE), research advisor William Huang (NE), research advisor Alex Vaschenko (ECE), research advisor Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 Masters Students: Name of Student/Your Role (thesis adviser, research adviser, etc.) Doctoral Students: Name of Student/Your Role (thesis adviser, research adviser, etc.) Stefan Maat, University of Alabama, Summer research advisor, Olav Hellwig, Bochum University, Summer research advisor, Keith Chan, thesis adviser, , PhD SP11 Erik Shipton, thesis adviser, , PhD SP11 Stephane Moyerman, thesis adviser, (student changed course of study and advisor) Jimmy Kan, Mat. Sci. thesis advisor, (admitted FA09) Jonathan Sapan, ECE, thesis advisor, 2008-present (passed prelim FA10) Nasim Eibagi, ECE, thesis advisor, 2010-present (advanced to candidacy SP11) Marko Lubarda, Mat. Sci, thesis advisor, 2009-present (co-advisor w/ Lomakin), PhD-FA12 Sohini Manna, NE, thesis advisor, 2010-present (admitted FA10) Richard Choi, ECE, thesis advisor, 2011-present (passed prelim FA12) Sergio Montoya, ECE, thesis advisor, 2012-present (admitted FA12) Robert Tolley, ECE, thesis advisor, 2012-present (passed prelim SU13) Postdocs: Name of Student/Your Role Kentaro Takano, research advisor, Olav Hellwig, research advisor, Ioan Tudosa, research advisor, /2009 Vojtech Uhlir, research advisor, 2011 present Matthias Gottwald, research advisor, (currently at Qualcomm) Dokyun Kim, research advisor 2014 present Rajasekhar Medapalli research advisor 2014 present Conrad Rizal research advisor 2014 present Other (List): Name Your Role: Cmt. Date Dept. Degree / Date Awarded Yeoung Chin Yoon Committee Member 03/16/2007 MAE PhD June 2010 Maik Duwensee Committee Member 05/22/2007 MAE PhD June 2007 Lei Zhu Committee Member 11/05/2007 Physics PhD Andrew D. LaForge Committee Member 05/30/2008 Physics PhD Ralf Brunner Committee Member 07/08/2008 MAE PhD July 2009 Seyhan Karakulak Committee Member 08/19/2008 ECE PhD April 2010 Bo Xu Committee Member 11/24/2010 MSE PhD Marko Lubarda Committee Member 09/08/2010 MSE PhD Brian Caleb Chapler Committee Member 07/22/2010 Physics PhD Yaniv Jacob Rosen Committee Member 12/03/2010 Physics PhD Neil A. Brahma Committee Member 03/14/2011 MSE PhD Do Hoe Lee Committee Member 03/18/2011 MSE PhD Stephanie M. Moyerman Committee Member 04/22/2011 Physics PhD Ritayan Mitra Committee Member Scripps PhD Hao Zheng Committee Member MAE PhD

29 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 Ali C. Basaran Committee Member Physics PhD Mikhail Erekhinsky Committee Member 04/02/2010 Physics PhD Dylan D. Y. Lu Committee Member 12/10/2010 ECE PhD Marco A. Escobar Committee Member 8/19/2010 ECE PhD Yeling Dai Committee Member 8/1/2011 Physics PhD Marco Escobar Committee Member 9/23/2011 ECE PhD San-Wen Chen Committee Member 11/8/2011 Physics PhD Ruinan Chang Committee Member 11/21/2011 ECE PhD Hyung-Man Cho Committee Member 1/27/2012 MSE PhD Kanguk Ki Committee Member 3/12/2012 MSE PhD Kanguk Kim Committee Member 3/21/2012 MSE PhD Danna Qian, Committee Member 4/17/2012 NE PhD Shaojing Li Committee Member 7/18/2012 ECE PhD Hyung Man Cho Committee Member 11/9/2012 NE PhD Ryan Quarfoth Committee Member 11/20/2012 ECE PhD Danna Qian Committee Member 4/17/2012 NE PhD Lindsay Freeman Committee Member 2/4/2013 NE PhD Sooyoung Jang Committee Member 2/12/2013 MSE PhD Phi-Khanh Nguyen Committee Member 3/5/2013 MSE PhD Kanguk Kim Committee Member 3/12/2013 MSE PhD Danyong Lu Committee Member 4/26/2013 ECE PhD Tyler Dill Committee Member 5/10/2013 NE PhD Sidi Fu Committee Member 5/13/2013 ECE PhD Sebastian Dietze Committee Member 6/6/2013 Phys. PhD Michael Gabriel Verde Committee Member 7/29/2013 NE PhD Ali C Basaran Committee Member 9/04/2013 Phys. PhD Mahmut Kavrik Committee Member 3/31/2014 MSE. PhD David Rosen Committee Member 4/19/2014 NE Masters Kyungah Seo Committee Member 5/12/2014 MSE PhD Jiang Long Committee Member 5/19/2014 ECE PhD Ivy Lum Committee Member 5/29/2014 MSE PhD Kyle Thompson Committee Member 6/10/2014 Visual Arts Masters Visiting Students Name Date visited Home institution Charles-Henri Lambert 2/7/2011-6/30/2011 Ecole des Mines de Nancy Romain Lebrun 7/1/2011-9/8/2011 Ecole es Mines de Nancy Nhu Phuon (Alain) Truong 3/1/2012-8/28/2012 Ecole des Mines de Nancy Majd Kuteifan 3/1/2012-9/7/2012 Ecole des Mines de Nancy Jon Ander Arregi 9/1/ /30/2012 CIC nanogune, San Sebastian, Spain Charles-Henri Lambert 2/1/ /31/2013 Unisersite de Lorraine Mohammed El Hadri 3/15/2013-8/28/2013 University of Paris Stud (Paris 11) Vincent Joly 2/1/2014-7/31/2014 Unisersite de Lorraine Ute Bierbauer 1/19/2014-1/31/2014 TU Kalserslautern Mathieu Mirjolet 1/6/2014-3/9/2014 Unisersite de Lorraine Charlotte Constans 3/31/2014-7/18/2014 Ecole Polytechnique Guido Hendriks 5/5/2014-8/10/2014 Eindhoven University of Technology Please fill in the table below for number and type of exam committees you ve served on throughout the review period: Graduate Exam Committee type/category # sat on during current review period MS Comprehensive / MS Plan II (Comprehensive Exam) MS Research / MS Plan I (Thesis) Thesis Defense Exams / Ph.D. Final Defense 3 PhD Research Exam (thesis proposal) PhD Comprehensive / Prelim (without MS, with MS) 5

30 Senate Exam Advance to Candidacy" / UQE 9 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 Served as President of the jury for the thesis defense of Marie-Alix Leroy on Sept. 20, 2013 at Universite De Lorraine, Nancy France List students graduated during this review period: Marko Lubarda, Mats. Sci., PhD 2012 (currently Assistant Professor at the University of Donja Gorica in Montenegro) Jimmy Kan, Mats. Sci., PhD 2013 (currently at Qualcomm)

31 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 Section III Bibliography A. PRIMARY PUBLISHED OR CREATIVE WORK I. Refereed Journal Articles (These are the usual publications in refereed journals. Do not list here papers that have appeared in proceedings of conferences. Papers which are "in press" or formally "accepted" are listed here; "tentatively accepted" may be listed in category C below.) 1. S. M. Hues, R. Bhadra, M. Grimsditch, E. Fullerton, and I. K. Schuller, Effect of high-energy ion irradiation on the elastic moduli of Ag/Co superlattices, Phys. Rev. B - Rapid Commun., Vol. 39, No. 17, (June 1989), pp W. M. Robertson and E. E. Fullerton, Reexamination of the surface plasma wave technique for determining the dielectric constant and thickness of metal films, J. Opt. Soc. Am., B, Vol. 6, No. 8, (August 1989), pp W. M. Robertson, M. Grimsditch, A. L. Moretti, R. G. Kaufman, G. R. Hulse, E. E. Fullerton, and I. K Schuller, Brillouin scattering from corrugated Ag films: Surface-plasmon-mediated enhancement and relaxed wave-vector conservation, Phys Rev. B, Vol. 40, No. 6, (August 1989), pp F. T. Parker, H. Oesterreicher, and E. Fullerton, Mössbauer effect determination of chemical segregation in sputtered Co- Cr films, J. Appl. Phys., Vol. 66, No. 12, (December 1989), pp W. M. Robertson, M. Grimsditch, A. L. Moretti, R. G. Kaufman, G. R. Hulse, E. Fullerton, and I. K. Schuller, Light scattering by surface acoustic waves on corrugated metal surfaces, Phys Rev. B, Vol. 41, No. 8, (March 1990), pp E. E. Fullerton, I. K. Schuller, R. Bhadra, M. Grimsditch, and S. M. Hues, Structural and elasticproperty changes in Ag/Co superlattices induced by high energy ion irradiation, Mater. Science and Eng, A, Vol. 126, (June 1990), pp H. Vanderstraeten, D. Neerinck, K. Temst, Y. Bruynseraede, E. E. Fullerton, and I. K. Schuller, Low angle x-ray diffraction of multilayered structures, J. Appl. Cryst., Vol. 24, Pt. 5, (October 1991), pp A. Fartash, E. E. Fullerton, I. K. Schuller, S. Bobbin, R. C. Cammarata, and M. Grimsditch, Evidence for the supermodulus effect and enhanced hardness in metallic superlattices, Phys. Rev. B, Vol. 44, No. 24, (December 1991), pp O. Nakamura, E. E. Fullerton, J. Guimpel, and I. K. Schuller, Disorder and superconductivity in YBaCuO/GdBaCuO superlattices, Physica C, Vol , Pt. 3, (December 1991), pp O. Nakamura, E. E. Fullerton, J. Guimpel, and I. K. Schuller, High-Tc thin films with roughness smaller than one unit cell, Appl. Phys. Lett., Vol. 60, No. 1, (January 1992), pp D. M. Kelly, E. E. Fullerton, F. T. Parker, J. Guimpel, Y. Bruynseraede, and I. K. Schuller, Connection between giant magnetoresistance and roughness in sputtered Fe/Cr superlattices, Inter. J. Mod. Phys. B, Vol. 7, No. 1-3, Pt. 1, (January 1992), pp E. E. Fullerton, D. M. Kelly, J. Guimpel, I. K. Schuller, and Y. Bruynseraede, Roughness and giant magnetoresistance in Fe/Cr multilayers, Phys. Rev. Lett., Vol. 68, No. 6, (February 1992), pp E. E. Fullerton, I. K. Schuller, H. Vanderstraeten, and Y. Bruynseraede, Structural refinement of superlattices from x-ray diffraction, Phys. Rev. B, Vol. 45, No. 16, (April 1992), pp E. E. Fullerton, O. Nakamura, J. Guimpel, and I. K. Schuller, Structure of high T c superlattices, Phys. Rev. Lett., Vol. 69, No. 19, (November 1992), pp E. E. Fullerton, J. E. Mattson, S. R. Lee, C. H. Sowers, Y. Y. Huang, G. Felcher, S. D. Bader, and F. T. Parker, Nonoscillatory antiferromagnetic coupling in sputtered Fe/Si superlattices, J. Magn. Magn. Mater., Vol. 117, No.3, (December 1992), pp. L301-L J. E. Mattson, E. E. Fullerton, C. H. Sowers, Y. Y. Huang, G. Felcher, and S. D. Bader, Oscillatory interlayer magnetic coupling of sputtered Fe/Nb superlattices, J. Appl. Phys., Vol.73, No. 10, Pt. 2A, (May 1993), pp E. E. Fullerton, J. E. Mattson, S. R. Lee, C. H. Sowers, Y. Y. Huang, G. Felcher, S. D. Bader, and F. T. Parker, Magnetic decoupling in sputtered Fe/Si multilayers and superlattices, J. Appl. Phys., Vol.73, No. 10, Pt. 2B, (May 1993), pp A. Fartash, M. Grimsditch, E. E. Fullerton, and I. K. Schuller, Breakdown of Possion's effect in Cu/Nb superlattices, Phys. Rev. B, Vol. 47, No. 19, (May 1993), pp E. E. Fullerton, I. K. Schuller, F. T. Parker, K. Svinarich, G. Eesley, R. Bhadra, and M. Grimsditch, Relationship between structural phase transitions and elastic anomalies in metallic superlattices, J. Appl. Phys., Vol. 73, No. 11, (June 1993), pp E. E. Fullerton, W. Cao, M. J. Carey, I. K. Schuller, G. Thomas, and A. E. Berkowitz, Quantitative characterization of epitaxial superlattices by x-ray diffraction and high-resolution electron microscopy, Appl. Phys. Lett., Vol. 63, No. 4, (July 1993), pp E. E. Fullerton, S. Kumar, M. Grimsditch, D. M. Kelly, and I. K. Schuller, X-ray diffraction characterization and sound velocity measurements of W/Ni multilayers, Phys. Rev. B, Vol. 48, No. 4, (July 1993), pp J. E. Mattson, S. Kumar, E. E. Fullerton, S. R. Lee, C. H. Sowers, M. Grimsditch, S. D. Bader, and F. T. Parker, Photoinduced antiferromagnetic interlayer coupling in Fe/(Fe-Si) superlattices, Phys. Rev. Lett., Vol. 71, No. 1, (July 1993), pp M. Grimsditch, S. Kumar, and E. E. Fullerton, Magnetic excitations in antiferromagnetically coupled superlattices: Fe/Mo and Fe/Cr, J. Phys. Condens. Matter., Vol. 5, No. 33A, (August 1993), pp. A

32 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ J. Guimpel, E. E. Fullerton, O. Nakamura, and I. K. Schuller, Interface structure in high TC superlattices, J. Phys. Condens. Matter., Vol. 5, No. 33A, (August 1993), pp. A E. E. Fullerton, M. J. Conover, J. E. Mattson, C. H. Sowers, and S. D. Bader, 150% magnetoresistance in sputtered Fe/Cr(100) superlattices, Appl. Phys. Lett., Vol. 63, No. 12, (September 1993), pp E. E. Fullerton, M. J. Conover, J. E. Mattson, C. H. Sowers, and S. D. Bader, Oscillatory interlayer coupling and giant magnetoresistance in epitaxial Fe/Cr(211) and (100) superlattices, Phys. Rev. B, Vol. 48, No. 21, (December 1993), pp E. E. Fullerton, J. Pearson, C. H. Sowers, S. D. Bader, X. Z. Wu, and S. K Sinha, Interfacial roughness of sputtered superlattices: Nb/Si, Phys. Rev. B, Vol. 48, No. 23, (December 1993), pp R. W. Wang, D. L. Mills, E. E. Fullerton, J. E. Mattson, and S. D. Bader, Surface spin-flop transition in Fe/Cr(211) superlattices: experiment and theory, Phys. Rev. Lett., Vol. 72, No. 6, (February 1994), pp D. E. Alexander, E. E. Fullerton, P. M. Baldo, C. H. Sowers, and L. E. Rehn, Neutron-induced collision cascade mixing in Nb/V superlattices, Nuclear Inst. and Methods B, Vol. 90, No. 1-4, (May 1994), pp E. E. Fullerton, M. J. Conover, J. E. Mattson, C. H. Sowers, and S. D. Bader, Orientationally independent antiferromagnetic coupling in epitaxial Fe/Cr(211) and (100) superlattices, J. Appl. Phys., Vol. 75, No. 10, Pt. 2B, (May 1994), pp J. E. Mattson, E. E. Fullerton, S. Kumar, S. R. Lee, C. H. Sowers, M. Grimsditch, S. D. Bader, and F. T. Parker, Photoinduced antiferromagnetic interlayer coupling in superlattices with iron silicide spacers, J. Appl. Phys., Vol. 75, No. 10, Pt. 2A, (May 1994), pp invited paper 32. J. E. Mattson, E. E. Fullerton, C. H. Sowers, and S. D. Bader, Epitaxial growth of bcc transition metal films and superlattices onto MgO(111), (011), and (001) substrates, J. Vac. Sci. Technol. A, Vol. 13, No. 2, (March 1995), pp Y. Park, E. E. Fullerton, and S. D. Bader, Epitaxial growth of ultrathin MgO films on an Fe(001) seed layers, J. Vac. Sci. Technol. A, Vol. 13, No. 2, (March 1995), pp E. E. Fullerton, D. Stoeffler, K. Ounadjela, B. Heinrich, Z. Celinski, and J. A. C. Bland, Structure and magnetism of epitaxially-strained Pd(001) films on Fe(001): Experiment and theory, Phys. Rev. B, Vol. 51, No. 10, (March 1995), pp Y. Park, E. E. Fullerton, and S. D. Bader, Growth-induced uniaxial in-plane magnetic anisotropy for ultrathin Fe deposited on MgO(001) by oblique-incidence molecular beam epitaxy, Appl. Phys. Lett., Vol. 66, No. 16, (April 1995), pp T. Toellner, W. Sturhalm, R. Röhlsberger, E. E. Alp, C. H. Sowers, and E. E. Fullerton, Observation of pure nuclear diffraction from an Fe/Cr antiferromagnetic multilayer, Phys. Rev. Lett., Vol. 74, No. 17, (April 1995), pp J. A. C. Bland, D. Daboo, B. Heinrich, Z. Celinski, E. E. Fullerton, K. Ounadjela, and D. Stoeffler, Enhanced magnetic moments in epitaxial bcc Fe/Ag(001) films overcoated with Ag, Au, Cu and Pd, J. Magn. Magn. Mater., Vol. 148, No. 1-2, (July 1995), pp E. E. Fullerton, K. T. Riggs, C. H. Sowers, S. D. Bader, and A. Berger, Suppression of biquadratic interlayer coupling in Fe/Cr(001) superlattices below the Néel transition of Cr, Phys. Rev. Lett., Vol. 75, No. 2, (July 1995), pp M. J. Pechan, E. E. Fullerton, W. Robertson, M. Grimsditch, and I. K. Schuller, Determination of magnetic anisotropy in Fe/Cu multilayers: equivalence of dynamic and static measurements, Phys. Rev. B-Brief Reports, Vol. 52, No. 5, (August 1995), pp D. M. Kelly, E. E. Fullerton, J. Santa-Maria, and I. K. Schuller, A simple, closed-form expression for the x-ray reflectivity from multilayers with cumulative roughness, Acta Metallurgica et Materialia, Vol. 33, No. 10, (December 1995), pp E. E. Fullerton, J. E. Mattson, C. H. Sowers, and S. D. Bader, Interlayer magnetic coupling in epitaxial Fe/Cr(211) and (100) superlattices, Acta Metallurgica et Materialia, Vol. 33, No. 10, (December 1995), pp Y. P. Feng, S. K. Sinha, E. E. Fullerton, G. Grübel, D. Abernathy, D. P. Siddons, and J. B. Hastings, X-ray Fraunhofer diffraction patterns from a thin-film waveguide, Appl. Phys. Lett., Vol. 67, No. 24, (December 1995), pp S. Adenwalla, G. P. Felcher, E. E. Fullerton and S. D. Bader, Polarized neutron reflectivity confirmation of 90 magnetic structure in Fe/Cr(001) superlattices, Phys. Rev. B, Vol. 53, No. 5, (February 1996), pp R. W. Wang, D. L. Mills, E. E. Fullerton, S. Kumar, and M. Grimsditch, Magnons in antiferromagnetically coupled superlattices, Phys. Rev. B, Vol. 53, No. 5, (February 1996), pp E. E. Fullerton and S. D. Bader, Temperature-dependent biquadratic coupling in antiferromagnetically coupled Fe/FeSi multilayers, Phys. Rev. B-Brief Reports, Vol. 53, No. 9, (March 1996), pp E. E. Fullerton, S. Adenwalla, G. P. Felcher, K. T. Riggs, C. H. Sowers, S. D. Bader, and J. L. Robertson, Neutron diffraction and reflectivity studies of the Cr Néel transition in Fe/Cr(001) superlattices, Physica B, Vol. 221, No. 1-4, (April 1996), pp invited paper 47. J. Bai, E. E. Fullerton, and P. Montano, Resonant x-ray reflectivity study of Fe/Cr superlattices, Physica B, Vol. 221, No. 1-4, (April 1996), pp E. E. Fullerton, S. D. Bader, and J. L. Robertson, Spin-density-wave antiferromagnetism of Cr in Fe/Cr(001) superlattices, Phys. Rev. Lett., Vol. 77, No. 7, (August 1996), pp M. Grimsditch, S. Kumar, and E. E. Fullerton, Brillouin light scattering study of Fe/Cr/Fe(211) and (100) trilayers, Phys. Rev. B, Vol. 54, No. 5, (August 1996), pp

33 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ E. E. Fullerton, C. H. Sowers, X. Z. Wu, and S.D. Bader, Growth of oriented rare-earth-transition-metal thin films, IEEE Trans. Mag., Vol. 32, No. 5, Pt. 2, (September 1996), pp D. J. Keavney, E. E. Fullerton, J. E. Pearson, and S.D. Bader, Magnetic properties of c-axis textured Nd2Fe14B thin films, IEEE Trans. Mag., Vol. 32, No. 5, Pt. 2, (September 1996), pp M. J. Conover, E. E. Fullerton and S. D. Bader, Magnetization studies of Ho/Y superlattices: Role of magnetoelastic coupling, Phys. Rev. B, Vol. 54, No. 2, (July 1996), pp E. E. Fullerton, C. H. Sowers, J. P. Pearson, X.Z. Wu, D. Lederman, and S. D. Bader, A general approach to the epitaxial growth of rare-earth-transition-metal films, Appl. Phys. Lett., Vol. 69, No. 16, (October 1996), pp J. D. Hettinger, B. R. Washburn, N. B. Remmes, D. G. Steel, K. E. Gray, E. E. Fullerton, and C. H. Sowers, Unusual Si multilayers with strong interlayer coupling, αvortex dynamics in Nb- Phys. Rev. Lett., Vol. 77, No. 26, (December 1996), pp A. Berger and E. E. Fullerton, Phase diagram of imperfect ferromagnetic/antiferromagnetic bilayers, J. Magn. Magn. Mater., Vol. 165, No. 1-3, (January 1997), pp D. J. Keavney, E. E. Fullerton, and S. D. Bader, Perpendicular conductance and magnetic coupling in epitaxial Fe/MgO/Fe(100) trilayers, J. Appl. Phys., Vol. 81, No. 2, (January 1997), pp F. Rüders, L. E. Rehn, P. M. Baldo, E. E. Fullerton, and S. D. Bader, Temperature-dependent study of ion-channeling in Fe/Cr superlattices, Nuclear Inst. and Methods B, Vol. 121, No. 1-4, (January 1997), pp J. J. Picconatto, M. J. Pechan, and E. E. Fullerton, Magnetic anisotropy, coupling, and transport properties of epitaxial Co/Cr superlattices on MgO (100) and (110), J. Appl. Phys., Vol. 81, No. 8, (April 1997), pp E. E. Fullerton, C. H. Sowers, J. P. Pearson, S. D. Bader, J. B. Patel, X.Z. Wu, and D. Lederman Structure and magnetism of epitaxial rare-earth-transition-metal films, J. Appl. Phys., Vol. 81, No. 8, (April 1997), pp D. J. Keavney, E. E. Fullerton, J. E. Pearson, and S. D. Bader, High-coercivity, c-axis oriented Nd2Fe14B films grown by molecular beam, J. Appl. Phys., Vol. 81, No. 8, (April 1997), pp E. E. Fullerton, S. D. Bader, and J. L. Robertson, Spin-density-wave antiferromagnetism of Cr in Fe/Cr(001) superlattices, Physica B, Vol , (July 1997), pp invited paper 62. M. Grimsditch, E. E. Fullerton, and R. L. Stamps, Exchange and anisotropy effects on spin waves in epitaxial Co films, Phys. Rev. B, Vol. 56, No. 5, (August 1997), pp E. E. Fullerton, C. H. Sowers, and S. D. Bader, Interplay between biquadratic coupling and the Néel transition in Fe/Cr 94 Fe 6 (001) superlattices, Phys. Rev. B, Vol. 56, No. 9, (September 1997), pp E. E. Fullerton, J. S. Jiang, Ch. Rehm, C. H. Sowers, S. D. Bader, J. B. Patel, and X. Z. Wu, High-coercivity, epitaxial Sm- Co films with uniaxial in-plane anisotropy, Appl. Phys. Lett., Vol. 71, No.11, (September 1997), pp E. E. Fullerton, J. Samuel Jiang, C. H. Sowers, J. E. Pearson, and S. D. Bader, Structure and magnetic properties of exchange-spring Sm-Co/Co superlattices, Appl. Phys. Lett., Vol. 72, No. 3, (January 1998), pp S. Rakhmanova, D. L. Mills, and E. E. Fullerton, Low frequency dynamic response and hysteresis in magnetic superlattices, Phys. Rev. B, Vol. 57, No. 1, (January 1998), pp S. Uran, M. Grimsditch, E. E. Fullerton, and S. D. Bader, Infra-red spectra of giant magnetoresistance Fe/Cr/Cr trilayers, Phys. Rev. B, Vol. 57, No. 5, (February 1998), pp M. J. Pechan, E. E. Fullerton, and I. K. Schuller, Sources of interface magnetization and interface anisotropy in Fe/Cu multilayers as revealed by thermal behavior, J. Magn. Magn. Mater., Vol. 183, No. 1-2, (March 1998), pp D. J. Keavney, E. E. Fullerton, D. Li, C. H. Sowers, S. D. Bader, K. Goodman, J. G. Tobin, and R. Carr Enhanced Co orbital moments in Co-rare-earth permanent magnet films, Phys. Rev. B, Vol. 57, No. 9, (March 1998), pp J. S. Jiang, E. E. Fullerton, M. Grimsditch, C. H. Sowers, and S. D. Bader, Exchange-spring behavior in epitaxial hard/soft magnetic bilayer films, J. Appl. Phys., Vol. 83, No. 11, (June 1998), pp S. M. Yusuf, E. E. Fullerton, R. M. Osgood, and G. Felcher, Depth-dependent diamagnetism of layered superconductors: Nb/Si, J. Appl. Phys., Vol. 83, No. 11, (June 1998), pp M. Benaissa, K. M. Krishnan, E. E. Fullerton, and J. S. Jiang, Magnetic anisotropy and its microsctructural origin in epitaxially grown SmCo thin films, IEEE Trans. Mag., Vol. 34, No. 4, Pt. 1, (July 1998), pp E. E. Fullerton, J. S. Jiang, M. Grimsditch, C. H. Sowers, and S. D. Bader, Exchange-spring behavior in epitaxial hard/soft magnetic bilayers, Phys. Rev. B, Vol. 58, No. 18, (November 1998), pp S. M. Yusuf, R. M. Osgood III, J. S. Jiang, C. H. Sowers, S. D. Bader, E. E. Fullerton, and G. P. Felcher, Magnetic profile in Nb/Si superconducting multilayers, J. Magn. Magn. Mater., Vol , (June 1999), pp J. Z. Hilt, J. J. Picconatto, A. O'Brien, M. Pechan, and E. E. Fullerton, Symmetry influence on interlayer coupling in epitaxial Co/Cr trilayers grown on MgO (100) and (110) substrates, J. Magn. Magn. Mater., Vol , (June 1999), pp M. Grimsditch, R. Camley, E. E. Fullerton, J. S. Jiang, S. D. Bader, and C. H. Sowers, Exchange-spring systems: Coupling of hard and soft ferromagnets as measured by magnetization and Brillouin light scattering, J. Appl. Phys., Vol. 85, No. 8, (April 1999), pp invited paper 77. J. S. Jiang, E. E. Fullerton, C. H. Sowers, A. Inomata, S. D. Bader, V. I. Nikitenko, and R. D. Schull, Spring magnet films (invited), IEEE Trans. Magn., Vol. 35, No. 5, Pt. 2, (September 1999), pp invited paper 78. E. E. Fullerton, J. S. Jiang, and S. D. Bader, Hard/soft magnetic heterostructures: Model exchange-spring magnets, J. Magn. Magn. Mater., Vol. 200, No. 1-3, (October 1999), pp invited paper

34 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ J. S. Jiang, E. E. Fullerton, M. Grimsditch, C. H. Sowers, J. Pearson, and S. D. Bader, Epitaxial hard-soft magnetic heterostructures as model exchange-spring magnets, Philos. Mag. B, Vol. 80, No. 2, (February 2000), pp A. Scholl, J. Stohr, J. Luening, J.-P. Locquet, J. Fompeyrine, J. W. Seo, H. Siegart, F. Nolting, S. Anders, E. E. Fullerton, M. R. Scheinfein, and H. A. Padmore, Observation of antiferromagnetic domains in epitaxial LaFeO3 by means of x-ray magnetic linear dichroism spectromicroscopy, Science, Vol. 287, No. 5455, (February 2000), pp P. Vavassori, M. Grimsditch, E. E. Fullerton, L. Giovannini, R. Zivieri, and F. Nizzoli, Brillouin light scattering study of an exchange coupled asymmetric trilayer of Fe/Cr, Surf. Sci., Vol , (May 2000), pp M. Madison, T. Arnoldussen, M. Pinarbasi, M. Parker, M. Doerner, C. S. Bhatia, D. Call, J. Li, L. Dorius, K. Tang, L. Ingall, E. Lee, S. Yuan, R. Schwenker, J. Tabib, L. Lauchlan, J. Raniseski, R. Smith, W.-C. Hsiao, T. Lin, D. Mauri, E. Marinero, D. Margulies, K. Rubin, E. E. Fullerton, D. Weller, and A. Moser, Design tradeoffs for beyond 20 Gb/in2: Using a merged-notched head on advanced low-noise media, J. Appl. Phys., Vol. 87, No. 9, Pt. 1-3, (May 2000), pp K. Takano, G. Zeltzer, D. Weller, and E. E. Fullerton, Co x Cr 1-x /Pt multilayers as perpendicular recording media, J. Appl. Phys., Vol. 87, No. 9, Pt. 1-3, (May 2000), pp M. J. Pechan, N. Teng, J.-D. Stewart, J. Z. Hilt, E. E. Fullerton, J. S. Jiang, C. H. Sowers, and S. D. Bader, Anisotropy determination in epitaxial Sm-Co/Fe exchange springs, J. Appl. Phys., Vol. 87, No. 9, Pt.1-3, (May 2000), pp F. Nolting, J. Stohr, A. Scholl, J. W. Seo, J. Fompeyrine, H. Siegart, J.-P. Locquet, S. Anders, J. Luening, E. E. Fullerton, M. Toney, M. R. Scheinfein, and H. A. Padmore, Direct observation of the alignment of ferromagnetic spins by antiferromagnetic spins, Nature, Vol. 405, No. 6788, (June 2000), pp A. Moser, C. T. Rettner, M. E. Best, E. E. Fullerton, D. Weller, M. Parker, and M. F. Doerner, Writing and detecting bits at 100 Gbit/in2 in longitudinal magnetic recording media, IEEE Trans. Mag., Vol. 36, No. 5, Pt. 1, (September 2000), pp Correction IEEE Trans. Mag., Vol. 37, No. 4, Pt. 2, (July 2001), pp O. Hellwig, J. B. Kortright, K. Takano, and E. E. Fullerton, The switching behavior of Fe 55 Pt 45 / Ni 80 Fe 20 exchange-spring magnets studied by resonant soft x-ray magneto-optical Kerr effect, Phys. Rev. B, Vol. 62, No. 17, (November 2000), pp E. E. Fullerton, D. Margulies, M. Schabes, M. Doerner, M. Carey, B. Gurney, A. Moser, M. Best, G. Zeltzer, K. Rubin, and H. Rosen, Antiferromagnetically-coupled magnetic media layers for thermally-stable high-density recording, Appl. Phys. Lett., Vol. 77, No. 23, (December 2000), pp P. Vavassori, M. Grimsditch and E. E. Fullerton, Biquadratic exchange coupling in an unequal Fe/Cr/Fe(100) trilayer, J. Magn. Magn. Mater., Vol. 223, No. 3, (February 2001), pp B. Hu, P. Geissbuhler, L. B. Sorensen, S. D. Kevan, J. B. Kortright, and E. E. Fullerton, Coherent soft x-ray magnetic scattering, Synchrotron Radiation News, Vol. 14, No. 2, (March 2001), pp invited paper 91. M. Doerner, X. Bian, M. Madison, K. Tang, Q. Peng, A. Polcyn, T. Arnoldussen, M. F. Toney, M. Mirzamaani, K. Takano, E. E. Fullerton, D. Margulies, M. Schabes, K. Rubin, M. Pinarbasi, S. Yuan, M. Parker, and D. Weller, Demonstration of 35 Gbits/in2 using media on glass substrates, IEEE Trans. Mag., Vol. 37, No. 2, Pt. 2, (March 2001), pp J. Lohau, A. Moser, D.T. Margulies, E. E. Fullerton and M.E. Schabes, Dynamic coercivity measurements of antiferromagnetically coupled magnetic media layers, Appl. Phys. Lett., Vol. 78, No. 18, (April 2001), pp S. Maat, O. Hellwig, G. Zeltzer, E. E. Fullerton, G. Mankey, M. L. Crow, and J. L. Robertson, Antiferromagnetic structure of FePt3 films studied by neutron scattering, Phys. Rev. B, Vol. 63, No. 13, (April 2001), pp / D. R. Cornejo, F. M. Rhen, F. P. Missell, and E. E. Fullerton, Preisach analysis of epitaxial hard/soft bilayers, J. Magn. Magn. Mater., Vol , Pt. 2, (May 2001), pp M. Teixeira, C. A. Ramos, A. A. R. Fernandes, and E. E. Fullerton, FMR study of the crystalline anisotropy of [Fe(t)Cr(38 Å)]N superlattices grown on MgO(100) and (110), J. Magn. Magn. Mater., Vol , Pt. 2, (May 2001), pp D. Weller, L. Folks, M. Best, E. E. Fullerton, B. D. Terris, G. J. Kusinski, K. M. Krishnan, and G. Thomas, Growth, structural, and magnetic properties of high coercivity Co/Pt multilayers, J. Appl. Phys., Vol. 89, No. 11, Pt. 1-2, (June 2001), pp J. B. Kortright, S.-K. Kim, E. E. Fullerton, J. S. Jiang, and S. D. Bader, X-ray magneto-optic Kerr effect studies of spring magnet heterostructures, Nucl. Inst. and Methods. A, Vol , Pt. 2, (July 2001), pp Y. Ikeda, Y. Sonobe, G. Zeltzer, B. K. Yen, K. Takano, H. Do, E. E. Fullerton, and P. Rice, Medium noise and grain size analysis of CoCrPt/Ti perpendicular media with NiAl seed layers, IEEE Trans. Mag., Vol. 37, No. 4, Pt. 1, (July 2001), pp M. E. Schabes, E. E. Fullerton, and D. Margulies, Theory of antiferromagnetically coupled magnetic recording media, IEEE Trans. Mag., Vol. 37, No. 4, Pt. 1, (July 2001), pp S. Sun, E. E. Fullerton, D. Weller, and C. B. Murray, Compositionally controlled FePt nanoparticle materials, IEEE Trans. Mag., Vol. 37, No. 4, Pt. 1, (July 2001), pp invited paper 101. J. B. Kortright, S.-K. Kim, G. P. Denbeaux, G. Zeltzer, K. Takano, and E. E. Fullerton, Soft x-ray small-angle scattering as a sensitive probe of magnetic and charge heterogeneity, Phys. Rev. B, Vol. 64, No. 9, (September 2001), pp / S. Maat, K. Takano, S. S. P. Parkin, and E. E. Fullerton, Perpendicular exchange bias of Co/Pt multilayers Phys. Rev. Lett., Vol. 87, No. 8, (August 2001), pp O. Hellwig, D. Weller, A. J. Kellock, J. E. E. Baglin, and E. E. Fullerton, Magnetic patterning of chemically ordered CrPt 3 films Appl. Phys. Lett., Vol. 79, No. 8, (August 2001), pp

35 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ E. E. Fullerton, D. T. Margulies, A. Moser, and K. Takano, Advanced magnetic recording media for high-density data storage, Solid State Tech., Vol. 44, No. 9, (September 2001), pp , 91-92, 94. invited paper 105. C. L. Platt, A. E. Berkowitz, S. David, E. E. Fullerton, J. S. Jiang and S. D. Bader, Reversal modes of exchange-spring magnets revealed by torque magnetometry, Appl. Phys. Lett., Vol. 79, No. 24, (December 2001), pp D. T. Margulies, M. E. Schabes, W. McChesney, and E. E. Fullerton, Interlayer coupling and magnetic reversal of antiferromagnetically coupled media, Appl. Phys. Lett., Vol. 80, No. 1, (January 2002), pp J. B. Kortright, O. Hellwig, D. T. Margulies, and E. E. Fullerton, Resolving magnetic and chemical correlations in CoPtCr films using soft x-ray resonant scattering, J. Magn. Magn. Mater., Vol. 240, No. 1-3, (February 2002), pp K. V. O Donovan, J. A. Borchers, C. F. Majkrzak, O. Hellwig, and E. E. Fullerton, Pinpointing chiral structures with front/back neutron reflectometry, Phys. Rev. Lett., Vol. 88, No. 6, (February 2002), pp / O. Hellwig, J.B. Kortright, D. T. Margulies, B. Lengsfield, and E. E. Fullerton, Role of boron on grain sizes and magnetic correlation lengths in recording media as determined by soft x-ray scattering, Appl. Phys. Lett., Vol. 80, No. 7, (February 2002), pp S. Sun, S. Anders, H. F. Hamann, J.-U. Thiele, J. E. E. Baglin, T. Thomson, E. E. Fullerton, C. B. Murray, and B. D. Terris, Polymer mediated self-assembly of magnetic nanoparticles J. Am. Chem. Soc., Vol. 124, (March 2002), pp O. Hellwig, S. Maat, J. B. Kortright, and E. E. Fullerton, Magnetic reversal of perpendicularly-biased Co/Pt multilayers Phys. Rev. B, Vol. 64, No. 14, (April 2002), pp R. Zivieri, P. Vavassori, L. Giovannini, F. Nizzoli, E. E. Fullerton, M. Grimsditch, and V. Metlushko Stokes anti-stokes Brillouin intensity asymmetry of spin modes in ferromagnetic films and multilayers, Phys. Rev. B, Vol. 65, No. 16, (April 2002), pp / H. Shi, D. Lederman and E. E. Fullerton, Exchange bias in Fe x Zn 1-x F 2 /Co bilayers, J. Appl. Phys., Vol. 91, No. 10, (May 2002), pp R. W. Chantrell, D. Weller, T. J. Klemmer, S. Sun and E. E. Fullerton, A model of the magnetic properties of FePt granular media, J. Appl. Phys., Vol. 91, No. 10, (May 2002), pp Z. Rivieri, P. Vavassori, L. Giovannini, F. Nizzoli, E. E. Fullerton, and M. Grimsditch, Stokes anti-stokes peak intensity interchange across a first-order transition, Surf. Science, Vol , (June 2002), pp T. L. Kirk, O. Hellwig, and E. E. Fullerton, Coercivity mechanisms in positive exchange biased Co films and Co/Pt multilayers, Phys. Rev. B, Vol. 65, No. 22, (June 2002), pp / A. A. R. Fernandes, C. A. Ramos, A. M. Teixeira, and E. E. Fullerton, Magnetization temperature dependence in Fe/Cr superlattices, Physica B, Vol. 320, No. 1-4, (July 2002), pp S. Anders, S. Sun, C. B. Murray, C. T. Rettner, M. E. Best, T. Thomson, M. Albrecht, J.-U. Thiele, E. E. Fullerton, and B. D. Terris, Lithography and self-assembly for nanometer scale magnetism, Microelectronic Engineering, Vol , (July 2002), pp E. E. Fullerton, O. Hellwig, Y. Ikeda, B. Lengsfield, K. Takano and J. B. Kortright, Soft x-ray characterization of perpendicular recording media, IEEE Trans. Mag., Vol. 38, No. 4, Pt. 1, (July 2002), pp S. Maat, M. J. Carey, E. E. Fullerton, T. X. Le, P. M. Rice, and B. A. Gurney, Cobalt-oxide underlayers for cobalt-ferrite pinned spin valves, Appl. Phys. Lett., Vol. 81, No. 3, (July 2002), pp R. L. Compton, M. J. Pechan, S. Maat, and E. E. Fullerton, Probing the magnetic transitions in exchange-biased FePt 3 /Fe bilayers, Phys. Rev. B, Vol. 66, No. 5, (August 2002), pp / A. Moser, D. T. Margulies, and E. E. Fullerton, Thermal relaxation in antiferromagnetically coupled granular magnetic media, Phys. Rev. B, Vol. 66, No. 9, (September 2002), pp / A. Moser, D. T. Margulies, C. T. Rettner, and E. E. Fullerton, Signal decay and amplitude measurements of antiferromagnetically coupled magnetic recording media, Appl. Phys. Lett., Vol. 81, No. 15, (October 2002), pp A. Moser, K. Takano, D. T. Margulies, M. Albrecht, Y. Sonobe, Y. Ikeda, S. Sun, and E. E. Fullerton, Magnetic Recording: Advancing into the future, J. Phys. D: Appl. Phys., Vol. 35, No. 19, (October 2002), pp. R J. S. Jiang, S. D. Bader, H. Kaper, G. K. Leaf, R. D. Schull, A. J. Shapiro, V. S. Gornakov, V. I. Nikitenko, C. L. Platt, A. E. Berkowitz, S. David and E. E. Fullerton, Rotational hysteresis of exchange-spring magnets, J. Phys. D: Appl. Phys., Vol. 35, No. 19, (October 2002), pp K. V. O Donovan, J. A. Borchers, C. F. Majkrzak, O. Hellwig, and E. E. Fullerton Extracting buried twists with polarized neutron reflectometry, Appl. Phys. A, Vol. 74, suppl., Pt. 2, (December 2002), pp. S D. T. Margulies, A. Moser, M. E. Schabes, and E. E. Fullerton, Thermal activation and reversal times in antiferromagnetically-coupled media, Appl. Phys. Lett., Vol. 81, No. 24, (December 2002), pp E. E. Fullerton, O. Hellwig, K. Takano, and J. B. Kortright, Soft x-ray magnetic scattering as a probe of recording media, Nucl. Inst. and Methods B, Vol. 200, (January 2003), pp invited paper 129. J. B. Kortright, J. S. Jiang, S. D. Bader, O. Hellwig, D. T. Margulies, and E. E. Fullerton, Magnetism in heterogeneous thin film systems: resonant x-ray scattering studies, Nucl. Inst. and Methods B, Vol. 199, (January 2003), pp O. Hellwig, T. L. Kirk, J. B. Kortright, Andreas Berger, and E. E. Fullerton, A new phase diagram for layered antiferromagnetic films, Nature Materials, Vol. 2, No. 2, (February 2003), pp E. E. Fullerton, D. T. Margulies, N. Supper, H. Do, M. Schabes, A. Berger, and A. Moser, Antiferromagnetically-coupled magnetic recording media, IEEE Trans. Mag., Vol. 39, No. 2, (March 2003), pp invited paper

36 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ J.-U. Thiele, S. Maat and E. E. Fullerton, FeRh/FePt exchange spring films for thermally assisted magnetic recording media, Appl. Phys. Lett., Vol. 82, No. 17, (April 2003), pp M. S. Pierce, R. G. Moore, L. B. Sorensen, S. D. Kevan, O. Hellwig, E. E. Fullerton and J. B. Kortright, Quasistatic x-ray speckle metrology of microscopic magnetic return point memory, Phys. Rev. Lett., Vol. 90, No. 17, (May 2003), pp / D. T. Margulies, A. Berger, A. Moser, M.E. Schabes and E. E. Fullerton, The energy barriers in antiferromagnetically coupled media, Appl. Phys. Lett., Vol. 82, No. 21, (May 2003), pp O. Hellwig, G. Denbeau, J. B. Kortright, and E. E. Fullerton, X-ray studies of aligned magnetic stripe domains in perpendicular multilayers, Physica B, Vol. 336, No. 1-2, (August 2003), pp A. Moser, A. Berger, D. T. Margulies, and E. E. Fullerton, Magnetic domain size tuning of biquadratic exchange coupling in magnetic thin films Phys. Rev. Lett., Vol. 91, No. 9, (August 2003), pp S. Maat, A. Kellock, D. Weller, J. E. E. Baglin and E. E. Fullerton, Ferromagnetism of FePt 3 films induced by ion beam irradiation, J. Magn. Magn. Mater., Vol. 265, No. 1, (September 2003), pp S. Eisebitt, M. Lörgen, W. Eberhardt, J. Lüning, J. Stöhr, O. Hellwig, C. Rettner, E. E. Fullerton, and G. Denbeaux, Polarization effects in coherent scattering from magnetic specimen: Implications for x-ray holography, lensless imaging, and correlation spectroscopy, Phys. Rev. B, Vol. 68, No. 10, (September 2003), pp / O. Hellwig, A. Berger, and E. E. Fullerton, Domain walls in antiferromagnetically-coupled multilayer films, Phys. Rev. Lett., Vol. 91, No. 19, (November 2003), pp / E. E. Fullerton, J. L. Robertson, A. E. R. Prinsloo, H. L. Alberts, and S. D. Bader, Hysteretic spin-density-wave ordering in confined geometries, Phys. Rev. Lett., Vol. 91, No. 23, (December 2003), pp / P. Kappenberger, S. Martin, Y. Pellmont, H. J. Hug, J. B. Kortright, O. Hellwig, and E. E. Fullerton, Direct imaging and determination of the uncompensated spin density in exchange-biased CoO/(Co/Pt) multilayers, Phys. Rev. Lett., Vol. 91, No. 26, (December 2003), pp / J.-U. Thiele, S. Maat J. L. Robertson and E. E. Fullerton, Magnetic and structural properties of FePt/FeRh exchange spring films for thermally assisted magnetic recording media, IEEE Trans. Mag., Vol. 40, No. 4, Pt. 2, (July 2004), pp A. Moser, A. Berger, D. T. Margulies, and E. E. Fullerton, Biquadratic coupling in antiferromagnetically-coupled recording media, J. Appl. Phys., Vol. 95, No. 11, (June 2004), pp K. Tang, C. Tsang, M. Mirzamaani, M. Doerner, A. Polcyn, X. Bian, D. T. Margulies, E. E. Fullerton, L. Tang, N. Supper and M. Mercado, Film optimization of laminated antiferromagnetically coupled media, IEEE Trans. Mag., Vol. 40, No. 6, (November 2004), pp V. V. Krishnamurthy, I. Zoto, G. J. Mankey, J. L. Robertson, S. Maat, E. E. Fullerton, I. Nwagwu and J. K. Akujieze, Antiferromagnetic phase transitions in an ordered Pt 3 Fe(111) film studied by neutron diffraction, Phys. Rev. B, Vol. 70, No. 2, (December 2004), pp / D. T. Margulies, M. E. Schabes, N. Supper, H. Do, A. Berger, A. Moser, P. Arnett, M. Madison, B. Lengsfield, H. Rosen, and E. E. Fullerton, The origin of signal-to-noise ratio improvements in laminated recording media, Appl. Phys. Lett., Vol. 85, No. 25, (December 2004), pp J. E. Davies, O. Hellwig, E. E. Fullerton, G. Denbeaux, J. B. Kortright and K. Liu, Magnetization reversal of Co/Pt multilayers: Microscopic origin of high field magnetic irreversibility, Phys. Rev. B, Vol. 70, No. 22, (December 2004), pp / M. S. Pierce, C.R. Buechler, L.B. Sorensen, J.J. Turner, S.D. Kevan, K.M Chesnel, J.B. Kortright, O. Hellwig, and E.E. Fullerton, Disorder induced microscopic magnetic memory, Phys. Rev. Lett., Vol. 94, No. 1, (January 2005), pp / J. B. Kortright, O. Hellwig, S. Sun, and E. E. Fullerton, Interparticle magnetic correlations in dense Co nanoparticle assemblies, Phys. Rev. B, Vol. 71, No. 1, (January 2005), pp / K. Tang, D. Margulies, A. Polcyn, N. Supper, H. Do, M. Mirzamaani, M. Doerner, X. Bian, M. Mercado, L. Tang, H. Rosen, E. E. Fullerton, C. Tsang, R. Nimmagadda and Q.-F. Xiao, Laminated antiferromagnetically-coupled media: Optimization and extendibility, IEEE Trans. Mag., Vol. 41, No. 2, (February 2005), pp M. F. Toney, J. A. Borchers, K. V. O Donovan, C. F. Majkrzak, D. T. Margulies, and E. E. Fullerton, Magnetization profiles in antiferromagnetically-coupled recording media, Appl. Phys. Lett., Vol. 86, No. 16, (April 2005), pp / O. Hellwig, A. Berger and E. E. Fullerton, Magnetic reversal and domain structure in perpendicular antiferromagneticallycoupled films, J. Magn. Magn. Mater., Vol , Pt. 1, (April 2005), pp D. T. Margulies, N. Supper, H. Do, M. E. Schabes, A. Berger, A. Moser, P. Rice, P. Arnett, M. Madison, B. Lengsfield, H. Rosen, K. Tang, A. Polcyn, and E. E. Fullerton, Understanding and optimizing laminated recording media, J. Appl. Phys., Vol. 97, No. 10, (May 2005), pp. 10N109/ A. Moser, N.F. Supper, A. Berger, D.T. Margulies, and E.E. Fullerton, Noise subtraction in antiferromagnetically-coupled recording media, Appl. Phys. Lett., Vol. 86, No. 26, (June 2005), pp / J. E. Davies, O. Hellwig, E. E. Fullerton, J. S. Jiang, S. D. Bader, G. T. Zimányi, and Kai Liu Anisotropy dependence of irreversible switching in Fe/SmCo and FeNi/FePt exchange spring magnet films, Appl. Phys. Lett., Vol. 86, No. 26, (June 2005), pp /1-3.

37 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ A. Berger, Y. Xu, B. Lengsfield, Y, Ikeda, and E. E. Fullerton, ΔH(M, ΔM)-method for the determination of intrinsic switching field distributions in perpendicular media IEEE Trans. Mag., Vol. 41, No. 10, (October 2005), pp N. Supper, D.T. Margulies, A. Moser, A. Berger, H. Do, and E. E. Fullerton, Writability enhancement using exchange spring media, IEEE Trans. Mag., Vol. 41, No. 10, (October 2005), pp S. Maat, J.-U. Thiele, and E. E. Fullerton, Temperature and field hysteresis of the antiferromagnetic-to-ferromagnetic phase transition in epitaxial FeRh films, Phys. Rev. B, Vol. 72, No. 21, (December 2005),pp / A. Berger, Ch. Binek, D. T. Margulies, A. Moser, and E. E. Fullerton, Reversible hysteresis loop tuning, Physica B, Vol. 372, No. 1-2, (February 2006), pp S. Mangin, D. Ravelosona, J. A. Katine, M. J. Carey, B. D. Terris, and E. E. Fullerton, Current-induced magnetization reversal in nanopillars with perpendicular anisotropy, Nature Materials, Vol. 5, No. 3, (March 2006), pp R. McFadyen, E. E. Fullerton, and M. J. Carey, State-of-the-art magnetic hard disk drives, MRS Bulletin, Vol. 31, No. 5, (May 2006), pp D. Ravelosona, S. Mangin, Y. Lemaho, J. A. Katine, B. D. Terris, and E. E. Fullerton, Domain wall creation in nanostructures driven by a spin-polarized current, Phys. Rev. Lett., Vol. 96, No. 18, (May 2006), pp / S. Mangin, T. Hauet, Y. Henry, F. Montaigne, and E. E. Fullerton, Influence of lateral domains and interface domain walls on exchange-bias phenomena in TbFe/GdFe bilayers, Phys. Rev. B, Vol. 74, No. 2, (July 2006), pp / G. Srajer, L. H. Lewis, S. D. Bader, A. J. Epstein, C. S. Fadley, E. E. Fullerton, A. Hoffmann, J. B. Kortright, Kannan M. Krishnan, S.A. Majetich, T. S. Rahman, C. A. Ross, M. B. Salamon, I. K. Schuller, T. C. Schulthess, and J. Z. Sun, Advances in nanomagnetism via X-ray techniques, J. Magn. Magn. Mater., Vol. 307, No. 1, (December 2006), pp D. Ravelosona, S. Mangin, J. A. Katine, E. E. Fullerton, and B. D. Terris, Threshold currents to move domain walls in films with perpendicular anisotropy, Applied Physics Letters, Vol. 90, No, 7, (February 2007), pp D. Ravelosona, S. Mangin, Y. Henry, Y. Lemaho, J. Katine, B. Terris, and E. E. Fullerton, Current induced domain wall states in CPP nanopillars with perpendicular anisotropy, J. Phys. D, Vol. 40, (March 2007), pp A. Barman, S. Wang, O. Hellwig, A. Berger, E. E. Fullerton, and H. Schmidt, Ultrafast magnetization dynamics in high perpendicular anisotropy [Co/Pt]n multilayers, J. Appl. Phys., Vol. 101, No. 9, (March 2007). pp. 09D102/ O. Hellwig, A. Berger, and E. E. Fullerton, Magnetic phase separation in artificial a-type antiferromagnetic films, Physical Review B (Condensed Matter), Vol. 75, No.13, (April 2007), pp M. S. Pierce, C. R. Buechler, L. B. Sorensen, S. D. Kevan, E. A. Jagla, J. M. Deutsch, T. Mai, O. Narayan, J. E. Davies, L. Kai, G. T. Zimanyi, H. G. Katzgraber, O. Hellwig, E. E. Fullerton, P. Fischer, and J. B. Kortright, Disorder-induced magnetic memory: experiments and theories, Physical Review B (Condensed Matter), Vol. 75, No.14, (April 2007), pp O. Hellwig, A. Berger, T. Thomson, E. Dobisz, Z. Z. Bandic, H. Yang, D. S. Kercher, and E. E. Fullerton, Separating dipolar broadening from the intrinsic switching field distribution in perpendicular patterned media, Applied Physics Letters, Vol. 90, No.16, (April 2007), pp T. Hauet, S. Mangin, J. McCord, F. Montaiggne, and E. E. Fullerton, Exchange bias training effect in TbFe/GdFe: Micromagnetic mechanism, Physical Review B, Vol. 76, No. 14 (October 2007), pp O. Hellwig, A. Berger, J. B. Kortright, and E. E. Fullerton, Domain structure and magnetization reversal of antiferromagnetically coupled perpendicular anisotropy films, J. Magn. Magn. Mater., Vol. 319, No. 1-2, (December 2007), pp E. E. Fullerton, and I.K. Schuller, "The 2007 Nobel Prize in Physics: magnetism and transport at the nanoscale," Nano, Vol. 1, No. 5, (December 2007), pp J. E. Davies, O. Hellwig, E. E. Fullerton, and K. Liu, Temperature-dependent magnetization reversal in (Co/Pt)/Ru multilayers, Physical Review B, Vol. 77, No. 1, (January 2008), pp A. E. Berkowitz, G. F. Rodriguez, J. I. Hong, K. An, T. Hyeon, N. Agarwal, D. J. Smith, and E. E. Fullerton, Antiferromagnetic MnO Nanoparticles with Ferrimagnetic Mn 3 O 4 Shells: A Doubly-Inverted Core-Shell System," Physical Review B, Vol. 77, No. 2, (January 2008), pp I. Schmid, P. Kappenberger, O. Hellwig, M. J. Carey, E. E. Fullerton, and H. J. Hug, The role of uncompensated spins in exchange biasing," Europhysics Letters, Vol. 81, No. 1, (January 2008), pp p p J. A. Katine, and E. E. Fullerton, Device implications of spin-transfer torques, Journal of Magnetism and Magnetic Materials, Vol. 320, No. 7, (April 2008), pp D. Stanescu, D. Ravelosona, V. Mathet, C. Chappert, Y. Samson, C. Beigné, N. Vernier, J. Ferré, J. Gierak, E. Bouhris, and E. E. Fullerton, Tailoring magnetism in CoNi films with perpendicular anisotropy by ion irradiation, Journal of Applied Physics, Vol. 103, No. 7, (April 2008), pp. 07B E. E. Fullerton, S. Mangin, Origin of the magneto-thermogalvanic voltage in cluster-assembled metallic nanostructures, Nature Materials, Vol. 7, No. 4, (April 2008), pp S. M. Watson, T. Hauet, J. A. Borchers, S. Mangin, and E. E. Fullerton, Interfacial magnetic domain wall formation in perpendicular-anisotropy, exchange-spring films, Applied Physics Letters, Vol. 92, No. 20, (May 2008), pp J. W. Seo, E. E. Fullerton, F. Nolting, A. Scholl, J. Fompeyrine, and J-P Locquet, Antiferromagnetic LaFeO3 thin films and their effect on exchange bias, Journal of Physics: Condensed Matter, Vol. 20, No. 26, (July 2008), pp A. E. Berkowitz, G. F. Rodriguez, J. I. Hong, K. An, T. Hyeon, N. Agarwal, D. J. Smith, and E. E. Fullerton, Monodispersed MnO nanoparticles with epitaxial Mn3O4 shells, J. Phys. D: Appl. Phys., Vol. 41, No. 13, (July 2008), pp

38 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ S. Mangin, T. Hauet, P. Fischer, D.H. Kim, J.B. Kortright, K. Chesnel, E. Arenholz, and E.E. Fullerton, Influence of interface exchange coupling in perpendicular anisotropy [PT/Co]50/TbFe bilayers, Physical Review B (Condensed Matter and Materials Physics), Vol. 78, No. 2, (July 2008), pp A. Berger, N. Supper, Y. Ikeda, B. Lengsfield, A. Moser, and E.E. Fullerton, Improved media performance in optimally coupled exchange spring layer media, Applied Physics Letters, Vol. 93, No. 12, (September 2008), pp J. McCord, Y. Henry, T. Hauet, F. Montaigne, E.E. Fullerton, and S. Mangin, Mechanism of chirality reversal for planar interface domain walls in exchange-coupled hard/soft magnetic bilayers, Physical Review B, Vol. 78, No. 9, (September 2008), pp C. Burrowes, D. Ravelosona, C. Chappert, S. Mangin, E.E. Fullerton, J.A. Katine, and B.D. Terris, Role of pinning in current driven domain wall motion in wires with perpendicular anisotropy, Applied Physics Letters, Vol. 93, No. 17, (October 2008), pp K. Chesnel, E.E. Fullerton, M.J. Carey, J.B. Kortright, and S.D. Kevan, Magnetic memory in ferromagnetic thin films via exchange coupling, Physical Review B (Condensed Matter and Materials Physics), Vol. 78, No. 13, (October 2008), pp O. Hellwig, A. Moser, E. Dobisz, Z.Z. Bandic, H. Yang, D.S. Kercher, J.D. Risner-Jamtgaard, D. Yaney, and E.E. Fullerton, Suppression of magnetic trench material in bit patterned media fabricated by blanket deposition onto prepatterned substrates, Applied Physics Letters, Vol. 93, No. 19, (November 2008), pp A. Berger, O. Hovorka, G. Friedman, and E.E. Fullerton, Nonlinear and hysteretic exchange bias in antiferromagnetically coupled ferromagnetic bilayers, Physical Review B (Condensed Matter and Materials Physics), Vol. 78, No. 22, (December 2008), pp S. Mangin, Y. Henry, D. Ravelosona, J.A. Katine, and E.E. Fullerton, Reducing the critical current for spin-transfer switching of perpendicularly magnetized nanomagnets, Applied Physics Letters, Vol. 94, No. 1, (January 2009), pp J. Cucchiara, Y. Henry, D. Ravelosona, D. Lacour, E.E. Fullerton, J.A. Katine, and S. Mangin, Telegraph noise due to domain wall motion driven by spin current in perpendicular magnetized nanopillars, Applied Physics Letters, Vol. 94, No. 10, (March 2009), pp S. Li, B. Livshitz, H.N. Bertram, A. Inomata, E.E. Fullerton, and V. Lomakin, Capped bit patterned media for high density magnetic recording, Journal of Applied Physics, Vol. 105, No. 7, (April 2009), pp. 07C S. Li, B. Livshitz, H.N. Bertram, E.E. Fullerton, and V. Lomakin, Microwave-assisted magnetization reversal and multilevel recording in composite media, Journal of Applied Physics, Vol. 105, No. 7, (April 2009), pp. 07B S. Li, B. Livshitz, H.N. Bertram, M. Schabes, T. Schrefl, E. E. Fullerton, and V. Lomakin, Microwave assisted magnetization reversal in composite media, Applied Physics Letters, Vol. 94, No. 20, (May 2009), pp S. Girod, M. Gottwald, S. Andrieu, S. Mangin, J. McCord, E.E. Fullerton, J.-M. L. Beaujour, B. J. Krishnatreya, and A.D. Kent, Strong perpendicular magnetic anisotropy in Ni/Co(111) single crystal superlattices, Applied Physics Letters, Vol. 94, No. 26, (June 2009), pp Y. Henry, S. Mangin, J. Cucchiara, J.A. Katine, and E.E. Fullerton, Distortion of the Stoner-Wohlfarth astroid by a spin-polarized current, Physical Review B (Condensed Matter and Materials Physics), Vol. 79, No. 21, (June 2009), pp J.E. Davies, O. Hellwig, E.E. Fullerton, M. Winklhofer, R.D. Shull, and K. Liu, Frustration driven stripe domain formation in Co/Pt multilayer films, Applied Physics Letters, Vol. 95, No. 2, (July 2009), pp E. Shipton, K. Chan, T. Hauet, O. Hellwig, and E.E. Fullerton, Suppression of the perpendicular anisotropy at the CoO Néel temperature in exchange-biased CoO/[Co/Pt] multilayers, Applied Physics Letters, Vol. 95, No. 13, (September 2009), pp J.-M. Beaujour, D. Ravelosona, I. Tudosa, E. E. Fullerton, and A. D. Kent, "Ferromagnetic resonance linewidth in ultrathin films with perpendicular magnetic anisotropy" Physical Review B, Vol. 80, No. 18, (Nov. 2009), pp O. Hellwig, T. Hauet, T. Thomson, E. Dobisz, J.D. Risner-Jamtgaard, D. Yaney, B.D. Terris, and E.E. Fullerton, "Coercivity tuning in Co/Pd multilayer based bit patterned media," Applied Physics Letters, Vol. 95, No. 23, (December 2009), pp D. Bedau, H. Liu, J.-J. Bouzaglou, A.D. Kent, J.Z. Sun, J.A. Katine, E.E. Fullerton, and S. Mangin, "Ultrafast spin-transfer switching in spin valve nanopillars with perpendicular anisotropy," Applied Physics Letters, Vol. 96, No. 2, (January 2010), pp C. Burrowes, A. P. Mihai, D. Ravelosona, J.-V. Kim, C. Chappert, L. Vila, A. Marty, Y. Samson, F. Garcia-Sanchez, L.D. Buda-Prejbeanu, I. Tudosa, E.E. Fullerton, and J.-P. Attané, "Nonadiabatic spin-torques in narrow magnetic domain walls," Nature Physics, Vol. 6, No. 1, (January 2010), pp K.A. Seu, R. Su, S. Roy, D. Parks, E. Shipton, E.E. Fullerton, and S.D. Kevan, Microscopic return point memory in Co/Pd multilayer films, New Journal of Physics, No. 12, (March 2010), pp I. Tudosa, J.A. Katine, S. Mangin, and E.E. Fullerton, Perpendicular spin-torque switching with a synthetic antiferromagnetic reference layer, Applied Physics Letters, Vol. 96, No. 21, (May 2010), pp

39 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ A.R.E. Prinsloo, H.A. Derrett, O. Hellwig, E.E. Fullerton, H.L. Alberts, and N. van den Berg, Influence of growth morphology on the Néel temperature of CrRu thin films and heterostructures, Journal of Magnetism and Magnetic Materials, Vol. 322, No. 9-12, (May-June 2010), pp K.T. Chan, C. Doran, E.G. Shipton, and E.E. Fullerton, Core-shell structured nanowire spin valves, IEEE Transactions on Magnetics, Vol. 46, No. 6, (June 2010), pp C.S. Kim, J.J. Sapan, S. Moyerman, K. Lee, E.E. Fullerton, and M.H. Kryder, Thickness and temperature effects on magnetic properties and roughness of L1 0 ordered FePt films, IEEE Transactions on Magnetics, Vol. 46, No. 6, (June 2010), pp I. Tudosa, J.A. Katine, S. Mangin, and E.E. Fullerton, Current induced switching of the hard layer in perpendicular magnetic nanopillars, IEEE Transactions on Magnetics, Vol. 46, No. 6, (June 2010), pp W. Lin, J. Cucchiara, C. Berthelot, T. Hauet, Y. Henry, J.A. Katine, E.E. Fullerton, and S. Mangin, Magnetic susceptibility measurements as a probe of spin transfer driven magnetization dynamics, Applied Physics Letters, Vol. 96, No. 25, (June 2010), pp M. Zhernenkov, M.R. Fitzsimmons, J. Chlistunoff, J. Majewski, I. Tudosa, and E.E. Fullerton, Electric-field modification of magnetism in a thin CoPd film, Physical Review B, Vol. 82, No. 2, (July 2010), pp M. Gauvin, E.E. Fullerton, and F.E. Talke, Investigation of Fe Si N films as magnetic overcoat for high density recording disk drives, Journal of Applied Physics, Vol. 108, No. 6, (September 2010), pp A. Berger, S. Mangin, J. McCord, O. Hellwig, and E.E. Fullerton, Cumulative minor loop growth in Co/Pt and Co/Pd multilayers, Physical Review B, Vol. 82, No. 10, (September 2010), pp I. Schmid, M.A. Marioni, P. Kappenberger, S. Romer, M. Parlinska-Wojtan, H.J. Hug, O. Hellwig, M.J. Carey, and E.E. Fullerton, Exchange bias and domain evolution at 10nm scales, Physical Review Letters, Vol. 105, No. 19, (November 2010), pp D. Bedau, H. Liu, J.Z. Sun, J.A. Katine, E.E. Fullerton, S. Mangin, and A.D. Kent, Spin-transfer pulse switching: From the dynamic to the thermally activated regime, Applied Physics Letters, Vol. 97, No. 26, (December 2010), pp K. T. Chan, J. J. Kan, C. Doran, L. Ouyang, D. J. Smith, and E. E. Fullerton, Oriented growth of single-crystal Ni nanowires onto amorphous SiO2, Nano Letters, Vol. 10, No. 2 (December 2010), pp M.V. Lubarda, S. Li, B. Livshitz, E.E. Fullerton, and V. Lomakin, Reversal in bit patterned media with vertical and lateral exchange," IEEE Transactions on Magnetics, Vol. 47, No. 1, (January 2011), pp M.V. Lubarda, S. Li, B. Livshitz, E.E. Fullerton, and V. Lomakin, Antiferromagnetically coupled capped bit patterned media for high-density magnetic recording, Applied Physics Letters, Vol. 98, No. 1, (January 2011), pp K. Chesnel, J.A. Nelson, S.D. Kevan, M.J. Carey, and E.E. Fullerton, Oscillating spatial dependence of domain memory in ferromagnetic films mapped via x-ray speckle correlation, Physical Review B, Vol. 83, No. 5, (February 2011), pp J.M.L. Beaujour, A.D. Kent, D. Ravelosona, I. Tudosa, and E.E. Fullerton, Ferromagnetic resonance study of Co/Pd/Co/Ni multilayers with perpendicular anisotropy irradiated with helium ions, Journal of Applied Physics, Vol. 109, No. 3, (February 2011), pp D.W. Cooke, F. Hellman, J.R. Groves, B.M. Clemens, S. Moyerman, and E.E. Fullerton, Calorimetry of epitaxial thin films, Review of Scientific Instruments, Vol. 82, No. 2, (February 2011), pp K.A. Seu, S. Roy, R. Su, D.H. Parks, E. Shipton, E.E. Fullerton, and S.D. Kevan, "Momentum transfer resolved memory in a magnetic system with perpendicular anisotropy," Applied Physics Letters, Vol. 98, No. 12, (March 2011), pp M. Sharma, H.M. Aarbogh, J.-U. Thiele, S. Maat, E.E. Fullerton, and C. Leighton, Magnetotransport properties of epitaxial MgO(001)/FeRh films across the antiferromagnet to ferromagnet transition, Journal of Applied Physics, Vol. 109, No. 8, (April 2011), pp N. Reckers, J. Cucchiara, O. Posth, C. Hassel, F.M. Romer, R. Narkowicz, R.A. Gallardo, P. Landeros, H. Zahres, S. Mangin, J.A. Katine, E.E. Fullerton, G. Dumpich, R. Mechenstock, J. Lindner, and M. Farle, Effect of microwave irradiation on spin-torque-driven magnetization precession in nanopillars with magnetic perpendicular anisotropy, Physical Review B, Vol. 83, No. 18, (May 2011), pp S. Park, N.M. Nguyen, C. Burrowes, E.E. Fullerton, C. Chappert, L. Prejebeanu, F. Garcia-Sanchez, and D. Ravelosona, Asymmetric domain wall depinning under current in spin valves with perpendicular anisotropy, Applied Physics Letters, Vol. 98, No. 23, (June 2011), pp K. Lee, J.J. Sapan, S.H. Kang, and E.E. Fullerton, Perpendicular magnetization of CoFeB on single-crystal MgO, Journal of Applied Physics, Vol. 109, No. 12, (June 2011), pp D. Lu, J. Kan, E.E. Fullerton, and Z. Liu, Tunable surface plasmon polaritons in Ag composite films by adding dielectrics or semiconductors, Applied Physics Letters, Vol. 98, No. 24, (June 2011), pp A.Tripathi, J. Mohanty, S. H. Dietze, O. G. Shpyrko, E. Shipton, E. E. Fullerton, S. S. Kim, and I. McNulty, Dichroic coherent diffractive imaging Proc. Natl. Acad. Sci., Vol. 108, No. 33, (Aug. 2011), pp I. Yulaev, M. Lubarda, S. Mangin, V. Lomakin, and E. E. Fullerton, Spin-transfer-torque reversal in perpendicular anisotropy spin valves with composite free layers Applied Physics Letters, Vol. 99, No. 13, (Sept. 2011), pp

40 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ J. Cucchiara, E. E. Fullerton, A. D. Kent, J.Z. Sun, Y. Henry, and S. Mangin, Current-induced magnetization reversal in terms of power dissipation Physical Review B, Vol. 84, No. 10, (Sept. 2011), pp (r) R. Su, K. A. Seu, D. Parks, J. J. Kan, E. E. Fullerton, S. Roy, and S. D. Kevan, Emergent rotational symmetries in disordered magnetic domain patterns, Physical Review Letters, Vol. 107, No. 25, (Dec. 2011) pp W. Gao, D. Kagan, O. S. Pak, C. Clawson, S. Campuzano, E. Chuluun-Erdene, E. Shipton, E. E. Fullerton, L. Zhang, E. Lauga, and J. Wang, Cargo-towing fuel-free magnetic nanomotors for targeted drug delivery Small, Vol. 8, No. 3, (Jan. 2012), pp S. O. Mariager, F. Pressacco, G. Ingold, A. Caviezel, E. Möhr-Vorobeva, P. Beaud, S. L. Johnson, C. J. Milne, E. Mancini, S. Moyerman, E. E. Fullerton, R. Feidenhans l, C. H. Back, and C. Quitmann, Structural and Magnetic Dynamics of a Laser Induced Phase Transition in FeRh Physical Review Letters, Vol. 108, No. 8 (Feb. 2012), pp D. B. Gopman, D. Bedau, S. Mangin, C. H. Lambert, E. E. Fullerton, J. A. Katine, and A. D. Kent, Asymmetric switching behavior in perpendicularly magnetized spin-valve nanopillars due to the polarizer dipole field, Applied Physics Letters, Vol. 100, No. 6, (Feb. 2012), pp I. Tudosa, Marko V. Lubarda, K. T. Chan, M. A. Escobar, V. Lomakin and E. E. Fullerton, Thermal stability of patterned Co/Pd nanodot arrays Applied Physics Letters, Vol. 100, No. 10, (Mar 2012), pp D. H. Kim, D. K. Kim, J. U. Cho, S. Y. Park, S. Isogami, M. Tsunoda, M. Takahashi, E. E. Fullerton, and Y. K. Kim, Transport and switching behaviors in magnetic tunnel junctions consisting of CoFeB/FeNiSiB hybrid free layers Journal of Applied Physics, Vol. 111, No. 9 (May 2012), pp K. T. Chan, J. J. Kan, C. Doran, L. Ouyang, D. J. Smith, and E. E. Fullerton, Controlled growth behavior of chemical vapor deposited Ni nanostructures, Philosophical Magazine, Vol. 92, No. 17, (June 2012), pp H. Liu, D. Bedau, J. Z. Sun, S. Mangin, E. E. Fullerton, J. A. Katine, A. D. Kent, Time-Resolved Magnetic Relaxation of a Nanomagnet on Subnanosecond Time Scales, Physical Review B, Vol. 85, No. 22, (June 2012), pp M. V. Lubarda, M. A. Escobar, S. Li, R. Chang, E. E. Fullerton, V. Lomakin Domain wall motion in magnetically frustrated nanorings, Physical Review B, Vol. 85, No. 21 (June 2012) pp A. X. Gray, D. W. Cooke, P. Krüger, C. Bordel, A. M. Kaiser, S. Moyerman, E. E. Fullerton, S. Ueda, Y. Yamashita, A. Gloskovskii, C. M. Schneider, W. Drube, K. Kobayashi, F. Hellman, and C. S. Fadley Electronic structure changes across the metamagnetic transition in FeRh via hard x-ray photoemission, Physical Review Letters, Vol. 108, No. 25 (June 2012) pp M. Gottwald, S. Andrieu, F. Gimbert, E. Shipton, L. Calmels, C. Magen, E. Snoeck, M. Liberati, T. Hauet, E. Arenholz, S. Mangin, E. E. Fullerton, Co/Ni(111) superlattices studied by microscopy, x-ray absorption, and ab initio calculations, Physical Review B, Vol. 86, No. 1, (July 2012), pp S. Le Gall, J. Cucchiara, M. Gottwald, C. Berthelot, and C.-H. Lambert, Y. Henry, D. Bedau, D. B. Gopman, H. Liu, and A. D. Kent, J. Z. Sun, W. Lin and D. Ravelosona, J. A. Katine, E. E. Fullerton, S. Mangin, State diagram of nanopillar spin valves with perpendicular magnetic anisotropy Physical Review B, Vol. 86, No.1 (July 2012)pp E. Fohtung, J. W. Kim, K. T. Chan, R. Harder, E. E. Fullerton, and O. G. Shpyrko, Probing the three-dimensional strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires, Applied Physics Letters, Vol. 101, No. 3, (July 2012), pp N. Eibagi, J. J. Kan, F. E. Spada and E. E. Fullerton, Role of dipolar interactions on the thermal stability of high-density bit-patterned media, IEEE Magnetic Letters, Vol. 3, (Sept. 2012), pp C. Bordel, J. Juraszek, D. W. Cooke, C. Baldasseroni, S. Mankovsky, J. Minár, H. Ebert, S. Moyerman, E.E. Fullerton and F. Hellman, Fe spin reorientation across the metamagnetic transition in strained FeRh thin films, Physical Review Letters, Vol. 109, No. 11, (Sept. 2012), pp S. Alebrand, M. Gottwald, M. Hehn, D. Steil, M. Cinchetti, D. Lacour, E. E. Fullerton, M. Aeschlimann, and S. Mangin, Light-induced magnetization reversal of high-anisotropy TbCo alloy films, Applied Physics Letters, Vol. 101, No. 16, (Oct. 2012), pp K. Lee, J. J. Kan, E. E. Fullerton, and S. H. Kang, Write Error Rate Slopes of In-Plane Magnetic Tunnel Junctions IEEE Magnetic Letters, Vol. 3, (Dec. 2012), pp J. Cucchiara, S. Le Gall, E. E. Fullerton, J.-V. Kim, D. Ravelosona, Y. Henry, J. A. Katine, A. D. Kent, D. Bedau, D. Gopman, and S. Mangin, Domain wall motion in nanopillar spin-valves with perpendicular anisotropy driven by spintransfer torques, Physical Review B, Vol. 86, No. 21, (Dec. 2012), pp D. W. Cooke, F. Hellman, C. Baldasseroni, C. Bordel, S. Moyerman, and E. E. Fullerton, Thermodynamic Measurements of Fe-Rh Alloys, Physical Review Letters, Vol. 109, No. 25, (Dec. 2012), pp K. Chesnel, B. Wilcken, M. Rytting, S. D. Kevan and E. E. Fullerton Field mapping and temperature dependence of magnetic domain memory induced by exchange couplings, New Journal of Physics, Vol. 15, No. 2, (Feb. 2013), pp J. Dou, M. J. Pechan, E. Shipton, N. Eibagi and E. E. Fullerton, Tunable resonant properties of perpendicular anisotropy [Co/Pd]/Fe/[Co/Pd] multilayer, Journal Applied Physics, Vol. 113, No. 17, 17C (Apr. 2013) M. Gottwald, K. Lee, J. J. Kan, B. Ocker, J. Wrona, S. Tibus, J. Langer, S. H. Kang, and E.E. Fullerton, Ultra-thin Co/Pd multilayers with enhanced high-temperature annealing stability, Applied Physics Letters, Vol. 102, No. 5, (Feb. 2013).pp C.-H. Lambert, A. Rajanikanth, T. Hauet, S. Mangin, E.E. Fullerton, and S. Andrieu, Quantifying perpendicular magnetic anisotropy at the Fe-MgO(001) interface, Applied Physics Letters, Vol. 102, No. 12, (Mar. 2013), pp

41 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ V. Uhlíř, M. Urbánek, L. Hladík, J. Spousta, M.-Y. Im, P. Fischer, N. Eibagi, J. J. Kan, E. E. Fullerton and T. Šikola, Dynamic switching of the spin circulation in tapered magnetic nanodisks, Nature Nanotechnology, Vol. 8, No 5, (May 2013). pp M. S. Pierce, J. E. Davies, J. J. Turner, K. Chesnel, E. E. Fullerton, J. Nam, R. Hailstone, S. D. Kevan, J. B. Kortright, K. Liu, L. B. Sorensen, B. R. York, O. Hellwig, The influence of structural disorder on magnetic domain formation in perpendicular anisotropy thin films, Physical Review B, Vol. 87, No. 18, (May 2013), pp E. Mancini, F. Pressacco, M. Hartiger, E. E. Fullerton, T. Suzuki, G. Woltersdorf, and C. H. Back, Magnetic phase transition in iron-rhodium thin films probed by ferromagnetic resonance, Journal of Physics D: Applied Physics,Vol. 46, No. 24, (June 2013),pp M. Gottwald, J. J. Kan, K. Lee, S. H. Kang, and E. E. Fullerton, Paramagnetic Fe x Ta 1-x alloys for engineering of perpendicularly magnetized tunnel junctions APL Materials, Vol. 1, No. 2, (Aug. 2013), pp J. J. Kan, K. Lee, M. Gottwald, S. H. Kang, and E. E. Fullerton, Low-temperature magnetic characterization of optimum and etch-damaged in-plane magnetic tunnel junctions, Journal of Applied Physics, Vol. 114, No. 11,(Sept. 2013), pp D. B. Gopman, D. Bedau, G. Wolf, S. Mangin, E. E. Fullerton, J. A. Katine, and A. D. Kent Temperature dependence of the switching field in all-perpendicular spin-valve nanopillars Physical Review B Rapid Communications, Vol. 88, No. 10, (Sept. 2013), pp C. Burrowes, N. Vernier, J-P. Adam, L.Herrera Diez, K.Garcia, I. Barisic, G.Agnus, S.Eimer, Joo-Von Kim, T.Devolder, A. Lamperti, R. Mantovan, B. Ockert, E. E Fullerton, and D. Ravelosona, Low depinning fields in Ta-CoFeB-MgO ultrathin films with perpendicular magnetic anisotropy, Applied Physics Letters, Vol. 103, No. 18, (Oct. 2013), pp D. Lu, J. J. Kan, E. E. Fullerton and Z. Liu, Enhancing spontaneous emission rates of molecules using nanopatterned multilayer hyperbolic metamaterials, Nature Nanotechnology, Vol. 9, (January 2014), pp S. Mangin, M. Gottwald, C-H. Lambert, D. Steil, V. Uhlíř, L. Pang, M. Hehn, S. Alebrand, M. Cinchetti, G. Malinowski, Y. Fainman, M. Aeschlimann, and E.E. Fullerton, Engineered materials for all-optical helicity-dependent magnetic switching, Nature Materials, Vol. 13, , (Mar. 2014) D. B. Gopman, D. Bedau, S. Mangin, E. E. Fullerton, J. A. Katine, and A. D. Kent, Bimodal switching field distributions in all-perpendicular spin-valve nanopillars, Journal of Applied Physics, vol. 115, No. 17, (Jan. 2014), pp. 17C D. H. Lee, K, J. Carroll, K. W. Chapman, O. J. Borkiewicz, S. Calvin, E. E. Fullerton and Y. S. Meng, Understanding improved electrochemical properties of NiO-doped NiF 2 C composite conversion materials by X-ray absorption spectroscopy and pair distribution function analysis Physical Chemistry Chemical Physics, Vol. 16, No. 7, (Feb. 2014), pp H. Liu, D. Bedau, J. Z. Sun, S. Mangin, E. E. Fullerton, J. A. Katine, and A. D. Kent, Dynamics of spin torque switching in all-perpendicular spin valve nanopillars, Journal of Magnetism and Magnetic Materials, Vol , (Feb, 2014), pp S.-W. Chen, X. Lu, E. Blackburn, V. Lauter, H. Ambaye, K. T. Chan, E. E. Fullerton, A. E. Berkowitz, and S. K. Sinha, Nonswitchable magnetic moments in polycrystalline and (111)-epitaxial permalloy/coo exchange-biased bilayers" Physical Review B, Vol.89, No.9, (Mar 2014), pp D. B. Gopman, D. Bedau, S. Mangin, E. E. Fullerton, J. A. Katine, and A. D. Kent, Temperature dependent nucleation, propagation, and annihilation of domain walls in all-perpendicular spin-valve nanopillars, Journal of Applied Physics, Vol. 115, No. 11, (Mar. 2014), pp N. Moisan, G. Malinowski, J. Mauchain, M. Hehn, B. Vodungbo, J. Lüning, S. Mangin, E. E. Fullerton, and A. Thiaville, Investigating the role of super diffusive currents in laser induced demagnetization of ferromagnets with nanoscale magnetic domains" Scientific Reports, Vol. 4, article 4658, (Apr 2014), 3 pages E. Dechaumphai, D. Lu, J. J. Kan, J. Moon, E. E. Fullerton, and Z. Liu, and R. Chen, Ultralow thermal conductivity of multilayers with highly dissimilar Debye temperatures Nano Letters, Vol. 14, N.o. 5, (Apr 2014), pp S. Alebrand, U. Bierbrauer, M. Hehn, M. Gottwald, O. Schmitt, D. Steil, E. E. Fullerton, S. Mangin, M. Cinchetti, and M. Aeschlimann, Subpicosecond magnetization dynamics in TbCo alloys, Physical Review B, Vol. 89, No. 14, (Apr 2014), pp , D. B. Gopman, D. Bedau, S. Mangin, E. E. Fullerton, J. A. Katine, and A. D. Kent, Switching field distributions with spin transfer torques in perpendicularly magnetized spin-valve nanopillars, Physical Review B, Vol. 89, No. 13, (Apr 2014), pp C-H. Lambert, S. Mangin, B. S. D. Ch. S. Varaprasad, Y.K. Takahashi, M. Hehn, M. Cinchetti, G. Malinowski, K. Hono, Y. Fainman, M. Aeschlimann, and E.E. Fullerton, All-optical control of ferromagnetic thin films and nanostructures, Science vol. 345, (Sept. 2014) (NEW, IN PRESS) II. Books and Book Chapters (Encyclopedia entries should not be listed here. List them in B.III Other Works) 1. E. E. Fullerton, Magnetic superlattices Handbook of Thin Film Process Technology, edited by D. A. Glocker and S. I. Shah, (Bristol, IOP Publishing, 1997), F4:1-11

42 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 2. E. E. Fullerton and Sinha, S. K., X-ray scattering studies of ultrathin metallic structures in Ultrathin Magnetic Structures III Fundamentals of Nanomagnetism. J. A. C. Bland, and B. Heinrich, eds, Springer-Verlag, Berlin 2005, pages Nanoscale Magnetic Materials and Applications, Edited by J.P. Liu, E. Fullerton, O. Gutfleish and D.J. Sellmyer, Springer (New York), 2009, 719 pages III. Refereed Conference Proceedings (These are fully refereed conferences with proceedings distributed widely to members of the research community. Please include the acceptance rate for each conference, if available.) 1. I. K. Schuller, E. E. Fullerton, H. Vanderstraeten, and Y. Bruynseraede, Quantitative x-ray structure determination of superlattices and interfaces in Structure/Property Relationships for Metal/Metal Interfaces, Eds.: A. D. Romig, et al., MRS Symposia Proceedings, No. 229 (Materials Research Society, Pittsburgh, PA, 1991), pp invited paper 2. I. K. Schuller, A. Fartash, E. E. Fullerton, and M. Grimsditch, Effect of structure on the mechanical properties of metallic superlattices in Thin Films: Stresses and Mechanical Properties III, Eds.: W. D. Nix, et al., MRS Symposia Proceedings No. 239 (Materials Research Society, Pittsburgh, 1992), pp invited paper 3. E. E. Fullerton, I. K. Schuller, and Y. Bruynseraede, Quantitative x-ray diffraction from superlattices MRS Bulletin XVII No. 12, pp , (1992). invited paper 4. E. E. Fullerton, S. M. Mini, A. S. Bommannavar, C. H. Sowers, S. N. Ehrlich, S. D. Bader, Interfacial structure of lattice mismatched bcc(110)/bcc(110) transition metal superlattices in Applications of Synchrotron Radiation Techniques to Materials Science, Eds.: D. L. Perry, et al. MRS Symposia Proceedings No. 307 (Materials Research Society, Pittsburgh, 1993), pp M. Grimsditch, E. E. Fullerton, and I. K. Schuller, Phenomenological explanation of the elastic anomalies in superlattices in Thin Films: Stresses and Mechanical Properties IV, Eds.: P. H. Townsend, T. P. Weihs, J. E. Sanchez Jr., P. Børgesen, MRS Symposia Proceedings No. 308 (Materials Research Society, Pittsburgh, 1993), pp invited paper 6. J. E. Mattson, E. E. Fullerton, S. Kumar, S. R. Lee, C. H. Sowers, M. Grimsditch, S. D. Bader, and F. T. Parker, Photo- and thermal-induced antiferromagnetic interlayer coupling in Fe/(Fe-Si) superlattices in New Trends in Magnetic Materials and Their Applications, Eds: J. L. Morán-López and J. M. Sanchez, (Plenum Press, New York, 1994), pp D. E. Alexander, E. E. Fullerton, P. M. Baldo, C. H. Sowers, and L. E. Rehn, Modulation wavelength dependence of ion mixing in metallic superlattices in Materials Synthesis and Processing Using Ion Beams, Eds.: R. J. Culbertson, O. W. Holland, K. S. Jones, and K. Maex, MRS Symposia Proceedings No. 316 (Materials Research Society, Pittsburgh, 1994). pp E. E. Fullerton, Characterization of interface structure in multilayers using specular x-ray reflectance in Physics of X-ray Multilayer Structures, 1994 Technical Digest Series, Vol. 6 (Optical Society of AmE.a, Washington DC, 1994). pp invited paper 9. S. M. Mini, E. E. Fullerton, A. Fontaine, C. H. Sowers, A. S. Bommannavar, A. Traverse, F. Baudelet, and S. Pizzini, Magnetic and structural properties of Fe/Pd multilayers studied by magnetic x-ray dichroism and x-ray absorption spectroscopy in Applications of Synchrotron Radiation Techniques to Materials Science II, Eds.: L.J. Terminello et al., MRS Symposia Proceedings No. 375 (Materials Research Society, Pittsburgh, 1995), pp E. E. Fullerton, K. T. Riggs, C. H. Sowers, S. D. Bader, and A. Berger, Magnetic phase transitions in epitaxial Fe/Cr superlattices in Magnetic Ultrathin Films, Multilayers and Surfaces, Eds.: A. Fert et al., MRS Symposia Proceedings No. 384 (Materials Research Society, Pittsburgh, 1995), pp invited paper 11. E. E. Fullerton, C. H. Sowers, J. P. Pearson, X. Z. Wu, D. Lederman, and S. D. Bader, Structure and magnetism of epitaxial rare-earth-transition-metal films in Magnetic Hysteresis in Novel Magnetic Materials, Ed.: G.C. Hadjipanayis, (Kluwer Academic Press, Netherlands, 1997), pp invited paper 12. D. Margulies, E. E. Fullerton, M. Schabes, H. Do, E. Grochowski, M. Carey, B. Gurney, A. Moser, M. Best, K Rubin, H. Rosen, M. Doerner, M. Mirzamaani, and K. Tang, Antiferromagnetically coupled magnetic medium structure extends areal density for hard disk drives Datatech, Seventh Edition, pp (2001). IV. Patents (List US Patent Number) 1. Magnetic Recording Media with Antiferromagnetically Coupled Ferromagnetic Films as the Recording Layer, United States Patent No. 6,280,813, M. J. Carey, E. E. Fullerton, B. A. Gurney, H. J. Rosen, and M. E. Schabes, August 28, Laminated Magnetic Recording Media with Antiferromagnetically Coupled Layers as the Individual Magnetic Layers in the Laminate, United States Patent No. 6,372,330, H. V. Do, E. E. Fullerton, D. T. Margulies, and H. J. Rosen, April 16, Magnetic Recording Media with Magnetic Bit Regions Patterned by Ion Irradiation, United States Patent No. 6,383,597, E. E. Fullerton, and D. K. Weller, May 7, Patterned Magnetic Recording Media with Regions Rendered Nonmagnetic by Ion Irradiation, United States Patent No. 6,383,598, E. E. Fullerton, and D. K. Weller, May 7, 2002.

43 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 5. Magnetic Recording Media with Antiferromagnetically Coupled Host Layer for the Magnetic Recording Layer, United States Patent No. 6,383,668, E. E. Fullerton, D. T. Margulies, E. E. Marinero, and M.E. Schabes, May 7, Patterned Magnetic Recording Media with Discrete Magnetic Regions Separated by Regions of Antiferromagnetically Coupled Films, United States Patent No. 6,391,430, E. E. Fullerton, B. D. Terris, and D. K. Weller, May 21, Magnetic Media with Ferromagnetic Overlay Materials for Improved Thermal Stability, United States Patent No. 6,440,589, E. E. Fullerton, D. T. Margulies, E. E. Marinero, and M. E. Schabes, August 27, Antiferromagnetically Coupled Magnetic Recording Media with Boron-Free First Ferromagnetic Film as Nucleation Layer, United States Patent No. 6,537,684, M. F. Doerner, E. E. Fullerton, and D. T. Margulies, March 25, Antiferromagnetically Coupled Thin Films for Magnetic Recording, United States Patent No. 6,567,236, M. F. Doerner, E. E. Fullerton, D. T. Margulies, K. Tang, May 20, Method for Recording Magnetic Transitions on Recording Layer Having Antiferromagnetically Coupled Ferromagnetic Films, United States Patent No. 6,594,100, M. J. Carey, E. E. Fullerton, B. A. Gurney, H. J. Rosen, and M. E. Schabes, July 15, Magnetic Device with Ferromagnetic Layer Contacting Specified Yttrium or Rare Earth Element Oxide Antiferromagnetic Layer, United States Patent No. 6,631,057, R. Allenspach, J. Fompeyrine, E. Fullerton, J. P. Locquet, and T. Moran, M. Seo, October 7, Magnetic Devices with a Ferromagnetic Layer Having Perpendicular Magnetic Anisotropy and an Antiferromagnetic Layer for Perpendicularly Exchange Biasing the Ferromagnetic Layer, United States Patent No. 6,650,513, E. E. Fullerton, S. Maat, S. S. P. Parkin, and K. Takano, November 18, Magnetic Recording Medium with Antiparallel Coupled Ferromagnetic Films as the Recording Layer, United States Patent No. 6,723,450, H. V. Do, M. F. Doerner, E. E. Fullerton, D. T. Margulies, W. G. McChesney, M. E. Schabes, and K. Tang, April 20, Laminated Magnetic Recording Media with Antiferromagnetically Coupled Layer as One of the Individual Magnetic Layers in the Laminate, United States Patent No. 6,773,834, H. V. Do, E. E. Fullerton, D. T. Margulies, and H. J. Rosen, August 10, Method for Thermally-Assisted Recording on a Magnetic Recording Disk, United States Patent No. 6,834,026, E. E. Fullerton, S. Maat, and J-U. Thiele, December 21, Antiferromagnetically Coupled Magnetic Recording Media with CoCrFe Alloy First Ferromagnetic Film, United States Patent No. 6,835,476, H. V. Do, M. F. Doerner, E. E. Fullerton, D. T. Margulies, and N. F. Supper, December 28, Stability-Enhancing Underlayer for Exchange-Coupled Magnetic Structures, Magnetoresistive Sensors, and Magnetic Disk Drive Systems, United States Patent No. 6,836,392, M. J. Carey, E. E. Fullerton, B. A. Gurney, T. Le, S. Maat, and P. M. Rice, December 28, Magnetic Device with Improved Antiferromagnetically Coupling Film, United States Patent No. 6,893,741, M. F. Doerner, and E. E. Fullerton, May 17, Exchange-Coupled Magnetoresistive Sensor with a Coercive Ferrite Layer and an Oxide Underlayer Having a Spinal Lattice Structure, United States Patent No. 6,992,866, M. J. Carey, E. E. Fullerton, B. A. Gurney, T. Le, S. Maat, and P. M. Rice, January 31, Magnetic Recording Disk with Antiferromagnetically-Coupled Magnetic Layer Having Multiple Ferromagnetically-Coupled Lower Layers, United States Patent No. 7,081,309, H. V. Do, E. E. Fullerton, D. Margulies, and A. Moser, July 25, Stability-Enhancing Underlayer for Exchange-Coupled Magnetic Structures, Magnetoresistive Sensors, and Magnetic Disk Drive Systems, United States Patent No. 7,116,532, M. J. Carey, E. E. Fullerton, B. A. Gurney, T. Le, S. Maat, and P.M. Rice, October 3, Magnetic Recording Disk with Antiferromagnetically-Coupled Magnetic Layer Having Multiple Lower Layers, United States Patent No. 7,125,616, H. V. Do, E. E. Fullerton, D. Margulies, and A. Moser, October 24, Method for Manufacturing a Magnetic Read Sensor Employing Oblique Etched Underlayers for Inducing Uniaxial Magnetic Anisotropy in a Hard Magnetic In-Stack Bias Layer, United States Patent No. 7,360,299, M.J. Carey, J.R. Childress, E.E. Fullerton, and S. Maat, April 22, Method for Manufacturing a Magnetic Read Sensor Employing Oblique Etched Underlayers for Inducing Uniaxial Magnetic Anisotropy in a Hard Magnetic Pinning Layer, United States Patent No. 7,360,300, M.J. Carey, J.R. Childress, E.E. Fullerton, and S. Maat, April 22, Method for Manufacturing a Magnetic Read Sensor Employing Oblique Etched Underlayers for Inducing Uniaxial Magnetic Anisotropy in Hard Magnetic Bias Layers, United States Patent No. 7,363,699, M.J. Carey, J.R. Childress, E.E. Fullerton, and S. Maat, April 29, Heat Assisted Switching in an MRAM Cell Utilizing the Antiferromagnetic to Ferromagnetic Transition in FeRh, United States Patent No. 7,372,116, E.E. Fullerton, S. Maat, and J-U. Thiele, May 13, MR Sensor and Thin Film Media Having Alloyed Ru Antiparallel Spacer Layer for Enhanced Antiparallel Exchange Coupling. United States Patent No. 7,382,590. M. F. Doerner, E. E. Fullerton, W-Y. Lee, J. Li, and B. R. York, June 3, Incoherently-Reversing Magnetic Laminate with Exchange Coupled Ferromagnetic Layers, United States Patent No. 7,425,377, E.E. Fullerton, H.V. Do, D.T. Margulies, and N. Supper, September 16, Magnetic Read Sensor Employing Oblique Etched Underlayers for Inducing Uniaxial Magnetic Anisotropy in Hard Magnetic Bias Layers, United States Patent No. 7,457,085, M.J. Carey, J.R. Childress, E.E. Fullerton, and S. Maat, November 25, 2008.

44 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ Magnetic Read Sensor Employing Oblique Etched Underlayers for Inducing Uniaxial Magnetic Anisotropy in a Hard Magnetic in-stack Bias Layer, United States Patent No. 7,460,343, M.J. Carey, J.R. Childress, E.E. Fullerton, and S. Maat, December 2, Method and Apparatus for Improving Signal-to-Noise Ratio in Longitudinal Recording Media, United States Patent No. 7,479,332, E.E. Fullerton, D.T. Margulies, N. Supper, and H.V. Do, January 20, Perpendicular Magnetic Recording Medium with Laminated Recording Layers Formed of Exchange-Coupled Ferromagnetic Layers, United States Patent No. 7,488,545, E.E. Fullerton, D.T. Margulies, H.J. Rosen, and N.F. Supper, February 10, Perpendicular Magnetic Recording Medium with Metamagnetic Antiferromagnetically-Coupled Layer Between the Soft Underlayer and Recording Layer, United States Patent No. 7,514,162, A.K. Berger, E.E. Fullerton, and O. Hellwig, April 7, Laminated Magnetic Thin Films with Weak Antiferromagnetic Coupling for Perpendicular Magnetic Recording, United States Patent No. 7,529,065, E.E. Fullerton, O. Hellwig, B.H. Lengsfield III, and D.T. Margulies, May 5, Patterned Magnetic Recording Media with Discrete Magnetic Regions Separated by Regions of Antiferromagnetically Coupled Films, United States Patent No. RE40,726, E.E. Fullerton, B.D. Terris, and D.K. Weller, June 9, Perpendicular Magnetic Recording Medium with Multiple Exchange-Coupled Magnetic Layers Having Substantially Similar Anisotropy Fields, United States Patent No. 7,550,210, A.K. Berger, H.V. Do, E.E. Fullerton, Y. Ikeda, and B. Lengsfield, III, June 23, Antiferromagnetically Coupled Media for Magnetic Recording with Weak Coupling Layer, United States Patent No. 7,556,870, H.V. Do, E.E. Fullerton, D.T. Margulies, and N.F. Supper, July 7, Perpendicular Magnetic Recording Medium with Exchange-Spring Structure Having Multiple Exchange-Spring Layers and Recording System for the Medium, A.K. Berger, E.E. Fullerton, and B.H. Lengsfield, III, United States Patent No. 7,572,526, August 11, Perpendicular Magnetic Recording Medium with Improved Antiferromagnetically-Coupled Recording Layer, United States Patent No. 7,572,527, E.E. Fullerton, B.H. Lengsfield, III, and D. Margulies, August 11, Perpendicular Magnetic Recording Exchange-Spring Type Medium with a Lateral Coupling Layer for Increasing Intergranular Exchange Coupling in the Lower Magnetic Layer, United States Patent No. 7,588,841, A.K. Berger, E.E. Fullerton, B.H. Lengsfield III, and D.T. Margulies, September 15, Memory Array Having Memory Cells Formed from Metallic Material, United States Patent No. 7,615,771, R.E. Fontana, E.E. Fullerton, S. Maat, and J-U. Thiele, November 10, Perpendicular magnetic recording medium with patterned magnetic islands and nonmagnetic trenches and manufacturing method for suppressing surface diffusion of trench material, United States Patent No. 7,670,696, E. E. Fullerton and O. Hellwig, March 2, Magnetic read sensor employing oblique etched underlayers for inducing uniaxial magnetic anisotropy in a hard magnetic pinning layer, United States Patent No. 7,672,090, M. J. Carey, J. R. Childress, E. E. Fullerton, and S. Maat, March 2, Perpendicular recording media having an exchange-spring structure, United States Patent No. 7,687,157, A. Berger, E. E. Fullerton, H. V. Do, and N. Supper, March 30, Perpendicular magnetic recording system with patterned medium and manufacturing process for the medium, United States Patent No. 7,732,071, E. E. Fullerton, O. Hellwig, J. S. Lille, J. T. Olson, P. A. VanDerHeijden, and H. H. Yang, June 8, Perpendicular magnetic recording exchange-spring type medium with a lateral coupling layer for increasing intergranular exchange coupling in the lower magnetic layer, United States Patent No. 7,846,563, A. K. Berger, E. E. Fullerton, B. H. Lengsfield, III, and D. T. Margulies, December 7, Perpendicular magnetic recording disk drive with patterned disk having capping layer for suppression of surface diffusion of trench material, United States Patent No. 7,846,565, E. E. Fullerton and O. Hellwig, December 7, Disk drive with laminated magnetic thin films with sublayers for magnetic recording, United States Patent No 7,976,964, H. V. Do, E. E. Fullerton, D. T. Margulies, N. F. Supper, July 12, Perpendicular recording media having an exchange-spring structure, United States Patent No. 7,989,096, A. Berger, E. E. Fullerton, H. V. Do, N. Supper, August 2, Patterned perpendicular magnetic recording medium with exchange coupled recording layer structure and magnetic recording system using the medium, United States Patent No. 8,021,769, A. K. Berger; E. E. Fullerton, O. Hellwig, B. H. Lengsfield, III; E. E. Marinero, September 20, Laminated magnetic thin films for magnetic recording with weak ferromagnetic coupling, United States Patent No. 8,263,239, A. K. Berger; H. V. Do, E. E. Fullerton, D. T. Thomas, and N. F. Supper, September 11, B. OTHER WORK I. Other Conference Proceedings (List the name of the Proceedings, the date of publication, and the page numbers of the article. If the paper was invited, one can append the entry with [invited paper]. Most conferences have program committees which provide a certain level of reviewing of submitted articles.)

45 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 II-a. Abstracts - Refereed Conference Proceedings: 1. Y. Henry, S. Mangin, D. Ravelosona, H. Cucchiara, J. A. Katine, B. D. Terris, and E. E. Fullerton, Influence of the polarized current on the Stoner-Wohlfarth asteroid, 52 nd Magnetism and Magnetic Materials Conference, p. 42, (2007). 2. J. McCord, Y. Henry, T. Hauet, F. Montaigne, E. E. Fullerton, and S. Mangin, Chirality reversal of interface domain walls in hard/soft magnetic bilayers, 52 nd Magnetism and Magnetic Materials Conference, p. 81, (2007). 3. E. E. Fullerton, O. Hellwig, A. Berger, N. Supper, B. Lengsfield, S. Maat, A. Moser, Y. Ikeda, D. T. Margulies, S. Mangin, J. B. Kortright, J. Jiang, and S. D. Bader, Exchange spring reversal in high anisotropy composite materials, 52 nd Magnetism and Magnetic Materials Conference, p. 98, (2007). invited paper. 4. N. F. Supper, A. Berger, Y. Ikeda, and E. E. Fullerton, Magnetic reversal of exchange spring media with different interlayer materials, 52 nd Magnetism and Magnetic Materials Conference, p. 158, (2007). 5. T. Hauet, S. Mangin, J. McCord, F. Montaigne, J. A. Borchers, Y. Henry, and E. E. Fullerton, Exchange bias training effect in TbFe/GdFe: micromagnetic mechanism, 52 nd Magnetism and Magnetic Materials Conference, p. 161, (2007). 6. C. Burrowes, D. Ravelosona, C. Chappert, S. Mangin, J. Katine, B. Terris, and E. E. Fullerton, Creep regime in spin valves with perpendicular anisotropy driven by a spin-polarized current, 52 nd Magnetism and Magnetic Materials Conference, p. 163, (2007). 7. D. Stanescu, D. Ravelosona, C. Chappert, Y. Samson, C. Beigné and E. E. Fullerton, Tailoring magnetism in CoNi films by light ion irradiation for spintronics application, 52 nd Magnetism and Magnetic Materials Conference, p. 187, (2007). 8. J. E. Davies, O. Hellwig, E. E. Fullerton, J. S. Jiang, S. D. Bader, and K. Liu, Irreversible magnetization reversal in epitaxial Fe/SmCo spring magnets, 10 th Joint MMM/Intermag Conference, p. 49, (2007). 9. S. Maat, J. Thiele, and E. E. Fullerton, Field and temperature dependence of the first order antiferromagnetic to ferromagnetic phase transition in FeRh thin films, 10 th Joint MMM/Intermag Conference, p. 55, (2007). 10. N. F. Supper, D. T. Margulies, A. Moser, A. Berger, H. Do, and E. E. Fullerton, Exchange spring media, a route to high areal density, 10 th Joint MMM/Intermag Conference, p. 207, (2007). 11. A. R. E. Prinsloo, H. A. Derrett, O. Hellwig, E.E. Fullerton, H. L. Alberts, and N. van den Berg, Influence of growth morphology on the Néel temperature of CrRu thin film and heterostructures. The Joint European Magnetics Symposia (2008). 12. C. Burrowes, D. Ravelosona, M. Nguyen Ngoc, C. Chappert and E. Fullerton Role of pinning in current driven DW motion in wires with perpendicular anisotropy 53rd Conference on Magnetism and Magnetic Materials, p. AB-03, (2008). 13. J.L. Beaujour, A.D. Kent, D. Ravelosona, E.E. Fullerton, Y. Samson and C. Beigné Ferromagnetic resonance study of ion irradiated Co/Ni multilayers with perpendicular magnetic anisotropy 53rd Conference on Magnetism and Magnetic Materials, p. BD-03, (2008). 14. J.E. Davies, O. Hellwig, E.E. Fullerton, M.Winklhofer, R.D. Shull and K. Liu Frustrated magnetization reversal in Co/Pt multilayers 53rd Conference on Magnetism and Magnetic Materials, p. BD-07, (2008). 15. E.E. Fullerton, Y. Henry, S. Mangin, J. Cucchiara, I. Tudosa, D. Ravelosona and J. Katine Influence of spin transfer torques on the Stoner-Wohlfarth astroid. (Invited) 53rd Conference on Magnetism and Magnetic Materials, p. BD-08, (2008). 16. S. Li, B. Livshitz, E.E. Fullerton, H. Bertram, M. Schabes and V. Lomakin Microwave assisted magnetization reversal and multilevel recording in composite media 53rd Conference on Magnetism and Magnetic Materials, p. EC-10, (2008). 17. S. Li, B. Livshitz, E.E. Fullerton, H. Bertram, A. Inomata and V. Lomakin Bit patterned media with cap layer for high density magnetic recording 53rd Conference on Magnetism and Magnetic Materials, p. FC-08, (2008). 18. S. Mangin, J. Mc Cord, Y. Henry, F. Montaigne, T. Hauet and E.E. Fullerton Chirality reversal for planar interface domain walls in exchange-spring hard/soft magnetic bilayers IEEE Intermag 2009, p. AF-01, (2009). 19. V. Lomakin, E. Fullerton, S. Li and B. Livshitz Capped bit patterned media for high-density magnetic recording IEEE Intermag 2009, p. BC-02, (2009). 20. S. Li, B. Livshitz, H. Bertram, E.E. Fullerton and V. Lomakin Microwave assisted magnetic reversal and a novel recording system IEEE Intermag 2009, p. BC-06, (2009). 21. S. Li, B. Livshitz, H. Bertram, E.E. Fullerton and V. Lomakin Microwave assisted magnetic reversal and a novel recording system IEEE Intermag 2009, p. BC-06, (2009). 22. S. Mangin,Y. Henry, J. Cucchiara, D. Ravélosona, J. Katine and E.E. Fullerton Reduction of the critical current for spintransfer switching of perpendicularly magnetized nanomagnets IEEE Intermag 2009, p. CT-10, (2009). 23. J. Cucchiara, Y. Henry, D. Ravelosona, D. Lacour, E.E. Fullerton, J.A. Katine and S. Mangin Domain wall induced telegraph noise switching driven by spin transfer in nanopillars with perpendicular anisotropy IEEE Intermag 2009, p. FD-05, (2009). 24. K. Chan, J. Kan, E. Shipton, L. Ouyang, D.J. Smith and E.E. Fullerton, A General Mechanism for Transition-Metal Nanowire Growth From Metal-Halide Precursors 55th Magnetism and Magnetic Materials Conference, p. BT-15, (2010) 25. M.V. Lubarda, S. Li, R. Chang, B. Livshitz, E.E. Fullerton and V. Lomakin, Engineering Heterogeneous Bit Patterned Media for Enhanced Storage and Recording Performance 55th Magnetism and Magnetic Materials Conference, p. CF-08, (2010) 26. H. Liu, D. Bedau, J.Z. Sun, J.A. Katine, E.E. Fullerton, S. Mangin and A.D. Kent, Switching and Equilibration in All- Perpendicular Spin Valves Subject to Short Current Pulses 55th Magnetism and Magnetic Materials Conference, p. FC-11, (2010)

46 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ D. Bedau, H. Liu, J.Z. Sun, J.A. Katine3, E.E. Fullerton, S. Mangin and A.D. Kent, Spin-transfer switching: From the dynamic to the thermally activated regime. (Invited) 55th Magnetism and Magnetic Materials Conference, p. FC-04, (2010) 28. D. Ravelosona, S. Park, M. Ngoc, N. Lei, J. Kim, T. Devolder, N. Vernier, W. Zhao, J. Klein, C. Chappert, S. Mangin, J. Attane, L. Vila, A. Kent, D. Bedeau, E. Shipton, and E. Fullerton, Recent development in current induced domain wall motion in nanodevices with perpendicular anisotropy (Invited), 55th Magnetism and Magnetic Materials Conference, p. GA-04, (2010) 29. J.J. Sapan, K. Lee, J.J. Kan, E.E. Fullerton and S.H. Kang, Perpendicular magnetic anisotropy in magnetically annealed CoFeB 55th Magnetism and Magnetic Materials Conference, p. HC-04, (2010) 30. I. Schmid, M.A. Marioni, P. Kappenberger, S. Romer, M. Parlinska-Wojtan, H.J. Hug, O. Hellwig, M.J. Carey and E.E. Fullerton, Evolution of ferromagnetic domains over a distribution of uncompensated antiferromagnetic spins 11th Joint MMM Intermag Conference, p. BD-10, (2010) 31. S. Mangin, J. Cucchiara, S. Moyerman, I. Tudosa, E.E. Fullerton, Y. Henry, D. Bedau, H. Liu, J. Bouzaglou, A.D. Kent and J.A. Katine, Spin-torque reversal of nanopillars with perpendicular magnetic anisotropy (Invited), 11th Joint MMM Intermag Conference, p. CA-01, (2010) 32. J. Cucchiara, J.A. Katine, J.Z. Sun, E.E. Fullerton and S. Mangin, Stochastic domain wall motion and spin transfer effect in nanopillars with perpendicular magnetic anisotropy 11th Joint MMM Intermag Conference, p. CA-02, (2010) 33. I. Tudosa, J.A. Katine, S. Mangin and E.E. Fullerton, Current induced switching of hard layer in perpendicular magnetic nanopillars 11th Joint MMM Intermag Conference, p. CA-05, (2010). 34. D. Bedau, H. Liu, J. Bouzaglou, A.D. Kent, J.A. Katine, S. Moyerman, E.E. Fullerton and S. Mangin, Spin-transfer switching with short current pulses in all perpendicular magnetized spin valve nanopillars 11th Joint MMM Intermag Conference, p. CA-06, (2010). 35. O. Hellwig, T. Hauet, T. Thomson, E.A. Dobisz, J.D. Risner-Jamtgaard, D.Yaney, B.D. Terris and E.E. Fullerton, Coercivity tuning in Co/Pd multilayer based bit patterned media 11th Joint MMM Intermag Conference, p. CG-01, (2010). 36. I. Tudosa, J.A. Katine, S. Mangin and E.E. Fullerton, Phase diagram for spin-torque switching in perpendicular anisotropy magnetic nanopillars 11th Joint MMM Intermag Conference, p. DA-10, (2010). 37. K. Chan, C. Doran, E. Shipton and E.E. Fullerton, Core-Shell Structured Nanowire Spin Valves 11th Joint MMM Intermag Conference, p. DR-10, (2010). 38. J. Beaujour, B. Krishnatrya, A.A. Kent, M. Gottwald, S. Andrieu, S. Mangin, J. McCord and E.E. Fullerton, Magnetic properties of epitaxial Ni/Co(111) single crystal superlattices 11th Joint MMM Intermag Conference, p. DU-08, (2010). 39. C. Kim, J.J. Sapan, S. Moyerman, K. Lee, E.E. Fullerton and M.H. Kryder, Thickness and temperature effects on magnetic properties and roughness of L10-ordered FePt films 11th Joint MMM Intermag Conference, p. EF-08, (2010). 40. M.V. Lubarda, S. Li, B. Livshitz, E.E. Fullerton and V. Lomakin Composite capped bit patterned media for ultra-high density recording 11th Joint MMM Intermag Conference, p. FD-07, (2010). 41. K. Chan, L. Ouyang, D. Smith and E.E. Fullerton CVD Growth of Single-Crystal Nickel Nanowires 11th Joint MMM Intermag Conference, p. FG-12, (2010). 42. S. Moyerman, I. Tudosa, Y. Henry, S. Mangin, J. Cucchiar and E.E. Fullerton Asymmetries in macrospin approximated perpendicular anisotropy spin-valve systems 11th Joint MMM Intermag Conference, p. FV-10, (2010). 43. D. Ravelosona, C. Burrowes, A.P. Mihai, J.V. Kim, S. Park, C. Chappert, L. Vila, A. Marty, F. Garcia-Sanchez, L.D. Buda- Prejbeanu, I. Tudosa, E.E. Fullerton and J. Attane Non-adiabatic spin-torques in narrow magnetic domain walls 11th Joint MMM Intermag Conference, p. GA-06, (2010). 44. S. Park, N. Nguyen, C. Burrowes, E.E. Fullerton, C. Chappert and D. Ravelosona Efficiency of current-assisted domain wall depinning in spin valves with perpendicular magnetic anisotropy 11th Joint MMM Intermag Conference, p. GA-07, (2010). 45. E. Shipton, K. Chan, E.E. Fullerton, S. Moyerman, J. Mohanty, I. Tudosa, S. Andreiu and S. Mangin X-ray magnetic circular dichroism studies of Co/Ni multilayers 11th Joint MMM Intermag Conference, p. HC-04, (2010). 46. D. Bedau, H. Liu, M. Klein, J. Z. Sun, J. A. Katine, E. E. Fullerton, S. Mangin, and A. D. Kent Ultra-fast spin-transfer switching in all-perpendicular spin IEEE 7th International Symposium on Metallic Multilayers, p. I-17, (2010). 47. O. Hellwig, T. Hauet, T. Thomson, E. Dobisz, D. Kercher, M. Grobis, B. Stipe, J. D. Risner-Jamtgaard, X. Xu, L. Vinh, D. Yaney, G. Zeltzer, K. Bosworth, R. Ruiz, B. D. Terris, E. E. Fullerton, and T. Albrecht Bit Patterned Media For High Density Magnetic Recording IEEE 7th International Symposium on Metallic Multilayers, p. Tu-26, (2010). 48. S. Dietze, A. Tripathi, J. Mohanty, K. Chan, E. Shipton, S.S. Kim, E. E. Fullerton, I. McNulty, and O. G. Shpyrko Magnetic Domain Dynamics In Fe/Gd Multilayers IEEE 7th International Symposium on Metallic Multilayers, p. Fr-7, (2010). 49. A. Berger, S. Mangin, J. McCord, O. Hellwig and E.E. Fullerton Cumulative Minor Loop Growth in Co/Pt- and Co/Pd- Multilayers IEEE Intermag 2011, p. AB-04, (2011). 50. J. Cucchiara, E.E. Fullerton, A.D. Kent, J.Z. Sun, Y. Henry and S. Mangin Description of current induced magnetization switching based on power dissipation IEEE Intermag 2011, p. FC-02, (2011). 51. M. Gottwald, F. Grimbert, E. Shipton, T. Hauet, L. Calmels, S. Mangin, E. Fullerton and S. Andrieu Description of current induced magnetization switching based on power dissipation IEEE Intermag 2011, p. GB-09, (2011).

47 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ J.J. Kan, K. Lee, J.J. Sapan, S.H. Kang and E.E. Fullerton, Enhanced Perpendicular Magnetic Anisotropy in thin CoFeB Films. 56 th Conf. on Magnetism and Magnetic Materials, p. AF-09 (2011). 53. M.V. Lubarda, S. Li, R. Chang, E.E. Fullerton and V. Lomakin, Domain wall motion in magnetically frustrated Nanorings M.V. Lubarda, S. Li, R. Chang, E.E. Fullerton and V. Lomakin, 56 th Conf. on Magnetism and Magnetic Materials, p. AW-13 (2011). 54. D.B. Gopman, D. Bedau, C.H. Lambert, S. Mangin, E.E. Fullerton, J.A. Katine and A.D. Kent, Switching field distributions for nanopillar spin-valves with perpendicular anisotropy driven by spin-transfer and thermal fluctuations 56 th Conf. on Magnetism and Magnetic Materials, p. BB-04 (2011). 55. Lomakin, Q. Ding, M.A. Escobar, M.V. Lubarda, Y. Fainman, E.E. Fullerton, S. Li and R. Chang, Design of recording system for heat assisted magnetic recording 56 th Conf. on Magnetism and Magnetic Materials, p. CF-09 (2011). 56. H. Liu, D. Bedau, J.Z. Sun, J.A. Katine, E.E. Fullerton, S. Mangin and A.D. Kent, Spin-transfer pulse switching in all perpendicular spin-valve nanopillars, 56 th Conf. on Magnetism and Magnetic Materials, p. DA-02 (2011). 57. M. Gottwald, T. Hauet, S. Mangin, S. Andrieu, E. Fullerton, E. Snoeck, F. Bertran, P. Lefevre, A. Taleb and A. Kent, Co/Ni(111) epitaxial layers with Perpendicular Magnetic Anisotropy : a good candidate for spin transfer analysis, 56 th Conf. on Magnetism and Magnetic Materials, p. EF-05 (2011). 58. C. Bordel, D.W. Cooke, J. Juraszek, S. Moyerman, E.E. Fullerton and F. Hellman, Influence of strain on the AFM>FM phase transition in epitaxial FeRh films, 56 th Conf. on Magnetism and Magnetic Materials, p. ET-08 (2011). 59. N. Eibagi, J. Kan, M. Lubarda, M. Pechan, V. Lomakin and E.E. Fullerton, Composite structures for bit patterned media, 56 th Conf. on Magnetism and Magnetic Materials, p. FG-05 (2011). 60. I. Yulaev, M. Lubarda, S. Mangin, Lomakin and E.E. Fullerton, Spin-transfer-torque reversal in perpendicular anisotropy spin valves with composite free layers, 56 th Conf. on Magnetism and Magnetic Materials, p. GW-15 (2011). 61. A.X. Gray, D.W. Cooke, P. Krüger, C. Bordel, A.M. Kaiser, S. Moyerman, E.E. Fullerton, S. Ueda, Y. Yamashita, A. Gloskovskii, C.M. Schneider, W. Drube, K. Kobayashi, F. Hellman and C.S. Fadley, Electronic structural changes across the metamagnetic transition in FeRh via hard x-ray photoemission, 56 th Conf. on Magnetism and Magnetic Materials, p. GE-05 (2011). 62. D.Y. Lu, J. J. Kan, E. E. Fullerton, and Z. Liu, Plasmonic multilayered nanostructure mediated solid-state lighting, 243rd ACS National Meeting, p (2012). 63. C.-H. Lambert, D. Gopman, D. Bedau, A. Kent, E. Fullerton, J. Katine, S. Mangin, Current Induced and Thermally Activated Magnetization Switching in Nanopillar Spin-valves with Perpendicular Anisotropy, 2012 Materials Research Society Spring Meeting, p. LL4.2 (2012). 64. C.-Y. Chen, J. C. Eckert, N. Fear, S. K. K. Patel, R. Sayanagi, P. D. Sparks, E. Shipton, and E. E. Fullerton, Anisotropic Magnetoresistance of Co/Ni multilayers, The 19 th International Conference on Magnetism, p-pk09 (2012) 65. C.-Y. Chen, J. C. Eckert, N. Fear, S. K. K. Patel, R. Sayanagi, P. D. Sparks, E. Shipton, and E. E. Fullerton, Extraordinary hall measurements of Co/Ni multilayers, The 19 th International Conference on Magnetism, p-qm01 (2012) 66 V. Uhlir, M. Urbanek, L. Hladik, J. Spousta, M. Im, P. Fischer, E.E. Fullerton and T. Sikola, Switching vortex chirality in patterned magnetic nanodisks by nanosecond field pulses. (Invited) 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p AC-08 (2013) (invited). 67. M.A. Escobar, O. Mryasov, E. Fullerton, A. Singh, M.V. Lubarda, R. Chang and V. Lomakin Accelerated NEB simulations of energy barrier for MRAM free layer: interface vs. bulk anisotropy cases., 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p AQ-07 (2013). 68. J.J. Kan, K. Lee, S.H. Kang and E.E. Fullerton, Temperature-dependent transport properties of MRAM tunnel junctions 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p AQ-11 (2013). 69. M.V. Lubarda, M. Kuteifan, M.A. Escobar, R. Chang, D. Gabay, M. Hu, S. Fu, S. Li, E.E. Fullerton and V. Lomakin, Micromagnetic Study of Domain Wall Motion in Polycrystalline Nanowires with Materials Distributions 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p BC-02 (2013). 70. Y. Choi, J. Kim, S. Moyerman, V. Uhlír, E.E. Fullerton and P.J. Ryan, Temperature evolution of the structure and Rh magnetization across the antiferromagnetic-to-ferromagnetic phase transition in FeRh films 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p BG-10 (2013). 71. M. Gottwald, K. Lee, J. Langer, B. Oecker, S.H. Kang and E.E. Fullerton, Ultra-thin Co/Pd Multilayers Compatible with High-Temperature Thermal Cycles 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p BQ-06 (2013). 72. C. Bordel, J. Juraszek, C. Baldasseroni, S. Mankovsky, J. Minár, D.W. Cooke, H. Ebert, S. Moyerman, E.E. Fullerton and F. Hellman, Strain-induced magnetic anisotropy in FeRh thin films. (Invited) 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p BQ-06 (2013) (invited). 73. J. Kim, D.J. Keavney, M.V. Holt, P.J. Ryan, S. Moyerman, V. Uhlír and E.E. Fullerton, Coupling of Structural and magnetic domain evolution in FeRh films through the AFM-FM phase transition 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p DF-07 (2013). 74. M.J. Pechan, J. Dou1, E. Shipton, N. Eibagi and E.E. Fullerton, Tunable resonant properties of perpendicular anisotropy [Co/Pd]/Fe/[Co/Pd] multilayers 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p GE-05 (2013).

48 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ N. Eibagi, S. Chen, H. Guo, J. Dou, J.J. Kan, S.S. Sinha, E.E. Fullerton and M. Pechan, Depth dependent magnetization study of composite bit patterned media, 12 th Joint Magnetism and Magnetic Materials IEEE Intermag Conference, p HB- 02 (2013). 76. S. Couture, M. A. Escobar, E. E. Fullerton, V. Lomakin, Micromagnetic Study of Soft Magnetic Properties of Granular Ferromagnetic Materials, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. BQ N. Eibagi; J. J. Kan; E. E. Fullerton, Exchange coupled composite Bit Patterned media for microwave assisted magnetic recording, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. CT M. Kuteifan; M. Lubarda; S. Fu; R. Chang; M. Escobar; S. Mangin; E. Fullerton; V. Lomakin, Domain wall motion in antiferromagnetically coupled nanowires 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. DB M. Gottwald; K. Lee; J. Kan; S. H. Kang; E. E. Fullerton, Paramagnetic alloys for optimization of perpendicularly magnetized tunnel junctions, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. DC D. B. Gopman; D. Bedau; S. Mangin; E. E. Fullerton; J. A. Katine; A. D. Kent, Temperature dependence of the switching field distributions in all-perpendicular spin-valve nanopillars, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. DP J. Sharma, C. L. Melamed, S. K K. Patel, C. J. Thompson, P. D. Sparks; J. C. Eckert; M. Gottwald; E. E. Fullerton, Magneto-transport properties of Co-Ir synthetic ferrimagnets with perpendicular magnetic anisotropy, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. ES S. K K. Patel; C.L. Melamed; J. Sharma; C. J. Thompson; P. D. Sparks; J. C. Eckert; M. Gottwald; J. J. Kan; E. E. Fullerton, Hall effect study of Co/Ni multilayers, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. ES J.-W. Kim, Y. Choi, D. J. Keavney, M.V. Holt; S. Moyerman; V. Uhlir; D. Arena; E. E. Fullerton; P. J. Ryan, Thermal evolution of nano-scale phase coexistence during first order magneto-structural transition in FeRh, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. FC Stephane Mangin; Matthias Gottwald; Charles Henri Lambert; Daniel Steil; Lin Pang; Michel Hehn; Sabine Alebrand; Mirko Cinchetti; Gregory Malinowski; Shaya Fainman; Martin Aeschlimann; Eric E. Fullerton, Engineered materials for all-optical helicity-dependent magnetic switching (Invited). 58 th annual conference on Magnetism and Magnetic Materials (MMM) p. GD M. Urbanek; V. Uhlir; N. Eibagi; J. J. Kan; M.-Y. Im; P. Fischer; R. Kalousek; E. E. Fullerton; T. Sikola, Efficient magnetic vortex circulation switching: the effect of disk geometry and the rise time of magnetic field pulses, 58 th annual conference on Magnetism and Magnetic Materials (MMM), p. GP M. Urbanek, V. Uhlir, C-H. Lambert, J. J. Kan, N. Eibagi, M. Vanatka, L. Flajsman, R. Kalousek, M-Y. Im, P. Fischer, T. Sikola, E. E. Fullerton, Dynamics and efficiency of the magnetic vortex circulation reversal, IEEE International Magnetics Conference 2014, p. AC-12, (2014). 87. C-H. Lambert, A. Rajanikanth, T. Hauet, F. Montaigne, S. Mangin, E.E. Fullerton, S. Andrieu, Quantifying Fe/MgO(001) interface magnetic anisotropy and influence of electric field applied in MgO, IEEE International Magnetics Conference 2014, p. AH-11, (2014). 88. S. Patel, P. Sparks, J. Eckert, M. Gottwald, R Tolley, S Magnin, and E. E. Fullerton, Transport measurements of Co/Tb multilayers engineered for all optical switching, IEEE International Magnetics Conference 2014, p. CT-03, (2014). 89. R. Tolley, T. Liu, S. Le Gall, T. Hauet, M. Hehn, G. Lengaigne, E.E. Fullerton, and S. Mangin, Generation and Control of Domain Walls using a Thermal Gradient in Ferrimagnetic CoTb Thin Films, IEEE International Magnetics Conference 2014, p. FF-05, (2014). 90. C.-H. Lambert, S Mangin, M Gottwald, D Steil, L Pang, M Hehn, S Alebrand, M Cinchetti, G Malinowsky, S Fainman, M Aeschlimann, and E.E. Fullerton, Engineered materials for all-optical helicity-dependent magnetic switching IEEE International Magnetics Conference 2014, p. FT-07, (2014). 91. M. Menarini, M. Lubarda, B. Livshitz, S. Mangin, E. Fullerton, V. Lomakin, Modeling high-temperature demagnetization and recording in FePt granular media IEEE International Magnetics Conference 2014, p. ES-01, (2014). II-b. Abstracts of Non-refereed Conference Proceedings (Many international conferences publish a book of abstracts which is provided to the participants. This is the appropriate category for listing such contributions.) 1. J. E. Davies, K. Liu, J. S. Jiang, S. D. Bader, and E. E. Fullerton, Evolution of exchange coupling in epitaxial Fe/SmCo during partial SmCo demagnetization. Bulletin of the American Physical Society, Vol. 52, No. 1, pp. H14.02, (March 2007). 2. S. M. Watson, J. A. Borchers, T. Hauet, S. Mangin, and E. E. Fullerton, Magnetic configuration in antiferromagnetically coupled [Co/Pd] 15 /TbFeCo with out-of-plane anisotropy. Bulletin of the American Physical Society, Vol. 52, No. 1, pp. 52 (1), H14.03, (March 2007). 3. A. Berger, N. Supper, B. Lengsfield, D. Margulies, A. Moser, and E. E. Fullerton, Experimental study of perpendicular exchange spring media. Bulletin of the American Physical Society, Vol. 52, No. 1, pp. L14.09 (March 2007).

49 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/15 4. D. A. Walko, J. Wang, D. G. Cahill, J.-U. Thiele, and E. E. Fullerton, Time-domain thermoreflectance of FeRh across magnetic/structural phase transition. Bulletin of the American Physical Society, Vol. 52, No. 1, pp. N11.09 (March 2007). 5. E. E. Fullerton, Spin-torque-induced reversal in nanopillars containing perpendicularly magnetized layers (invited) Bulletin of the American Physical Society, Vol. 52, No. 1, pp. S14.04 (March 2007). invited paper. 6. E. Shipton, K. Chan, O. Hellwig, and E. E. Fullerton, Strong anisotropy suppression at the CoO Neel temperature in perpendicularly exchange-biased CoO/CoPt multilayers. Bulletin of the American Physical Society, Vol. 52, No. 2, pp. X27.02 (March 2008). 7. I. Tudosa, K. Chan, E. Shipton, and E. Fullerton, Magnetic properties of ion-etched magnetic nanodot arrays Bulletin of the American Physical Society, Vol. 54, No. 1, pp. J31.10 (March 2009). 8. K. Chesnel, S. Kevan, E. Fullerton, M. Carey, J. Kortright, B. Wilcken, and J. Nelson, From Exchange Bias to Magnetic Memory Bulletin of the American Physical Society, Vol. 54, No. 1, pp. L31.09 (March 2009). 9. M. Zhernenkov, M. Fitzsimmons, J. Chlistunoff, J. Majewski, I. Tudosa, and E. Fullerton, Electric field-induced modification of magnetism in thin CoPd films Bulletin of the American Physical Society, Vol. 54, No. 1, pp. T31.08 (March 2009). 10. J-M Beaujour, A. Kent, D. Ravelosona, E. Fullerton, Y. Samson, and C. Beigne, Ferromagnetic resonance study of ion irradiated Co/Ni multilayers with perpendicular magnetic anisotropy Bulletin of the American Physical Society, Vol. 54, No. 1, pp. X29.10 (March 2009). 11. D. Parks, S. Roy, K. Seu, R. Su, E. Shipton, E. E. Fullerton, and S. Kevan Numerical simulation of magnetic domain evolution in Co/Pd thin films Bulletin of the American Physical Society, Vol. 55, No. 2, pp. S1.84 (March 2010). 12. A. Farahani, S. Kamal, E. Fullerton, and J. S. Dodge, Time-resolved terahertz spectroscopy and Hall measurement on chromium vanadium thin films Bulletin of the American Physical Society, Vol. 55, No. 2, pp. V33.13 (March 2010). 13. H. Liu, D. Bedau, J.-J. Bouzaglou, A. Kent, J. Sun, J. Katine, E. Fullerton, and S. Mangin, Spin-Transfer switching with short current pulses in all perpendicular spin valve nanopillars Bulletin of the American Physical Society, Vol. 55, No. 2, pp. J37.02 (March 2010). 14. J. Mohanty, S. Dietze, A. Tripathi, E. Shipton, K. Chan. S. Kim, I. McNulty, E. Fullerton, and O. Shpyrko, Magnetic domain dynamics in Fe/Gd magnetic multilayers Bulletin of the American Physical Society, Vol. 55, No. 2, pp. J36.12 (March 2010). 15. K. Chesnel, J. Nelson, E. Fullerton, M. Carey, and S. Kevan, From exchange coupling to magnetic memory: how domains remember at nanoscale Bulletin of the American Physical Society, Vol. 55, No. 2, pp. A34.14 (March 2010). 16. K. Seu, R. Su, D. Parks, S. Roy, E. Shipton, E. Fullerton, and S. Kevan, Microscopic return point memory in Co/Pd multilayer films Bulletin of the American Physical Society, Vol. 55, No. 2, pp. A34.06 (March 2010). 17. R. Su, K. Seu, S. Roy, D. Parks,, E. Shipton, E. Fullerton, and S. Kevan, Microscopic Memory in Co/Pd Multilayer Films Bulletin of the American Physical Society, Vol. 55, No. 2, pp. A34.02 (March 2010). 18. A. Tripathi, S.S. Kim, J. Mohanty, S. Dietze, E. Shipton, K. Chan, E. Fullerton, O. Shpyrko, and I. McNulty, Scanning Coherent X-ray Diffraction Imaging of GdFe Magnetic Multilayers Bulletin of the American Physical Society, Vol. 55, No. 2, pp. A34.01 (March 2010). 19. J. Mohanty, A. Tripathi, E. Shipton, K. Chan, S. Kim, I. McNulty, E. Fullerton, and O. Shpyrko, Domain pinning and disorder in Fe/Gd magnetic multilayers. Bulletin of the American Physical Society, Vol. 54, No. 1, pp. V32.12 (March 2011). 20. D. Bedau, H. Liu, J. Sun, J. Katine, E. Fullerton, S. Mangin, and A. Kent, Equilibration in All-Perpendicular Spin Valves Subject to Short Current Pulses Bulletin of the American Physical Society, Vol. 56, No. 1, pp. B19.04 (March 2011). 21. J. Kan, K. Chan, E. Shipton, and E. Fullerton Magnetic Properties of Single Crystal Nickel Nanowires Bulletin of the American Physical Society, Vol. 56, No. 1, pp. A16.03 (March 2011). 22. A. Tripathi, S. Kim, S. Dietze, E. Shipton, E. Fullerton, O. Shpyrko, and I. McNulty New Developments in Magnetic Coherent Diffractive Imaging Bulletin of the American Physical Society, Vol. 56, No. 1, pp. D16.03 (March 2011). 23. R. Su, S. Roy, K. Seu, D. Parks, J. Kan, E. Fullerton, and S. Kevan Geometric Structure of Magnetic Domains in CoPd/IrMn Multilayer Films Bulletin of the American Physical Society, Vol. 56, No. 1, pp. V16.06 (March 2011). 24. S. Mangin, J. Cucchiara, T. Hauet, D. P. Bernstein, E. E. Fullerton, A. D. Kent, J. Katine, and J. Z. Sun Effects of Spin transfer torques on domain wall nucleation and propagation in perpendicular spinvalve nanopillars Bulletin of the American Physical Society, Vol. 56, No. 1, pp. P19.09 (March 2011). 25. S.-W. Chen, X. Lu, S. Sinha, A. Berkowitz, E. Fullerton, K. Chan, V. Lauter, H. Ambaye, and K. Blackburn Neutron Reflectivity Study in Py/CoO Exchange Bias System Bulletin of the American Physical Society, Vol. 56, No. 1, pp. L16.09 (March 2011). 26. E. Shipton, K. Lee, J. Sapan, J. Kan, K. Chan, and E. Fullerton Ferromagnetic resonance studies of CoFeB-MgO Bulletin of the American Physical Society, Vol. 56, No. 1, pp. V19.02 (March 2011). 27. J. Cucchiara, S. Mangin; E. E. Fullerton; Y. Henry; D. Ravelosona; D. Bedau; H. Liu; A. D. Kent; J. A. Katine, and J.Z. Sun Spin torque reversal of nanopillars with perpendicular magnetic anisotropy: Power dissipation model International Workshop on Spin Transfer (2011). 28. A. Gray, D. Cooke, P. Kruger, C. Bordel, E. Fullerton, S. Ueda, K. Kobayashi, F. Hellman, and C. Fadley, Bulk electronic structure of FeRh undergoing metamagnetic transition via hard x-ray photoemission Bulletin of the American Physical Society, Vol. 57, No. 1, pp. A23.01 (March 2012).

50 Review Period materials cover: From 7/1/11 To 6/30/14 Current Review Eff: 7/1/ D. Gopman, D. Bedau, S. Mangin, C. Lambert, E. Fullerton, J. Katine, A. Kent Switching Distributions in all perpendicular spin-valve nanopillars under thermal activation and spin-transfer torques, Bulletin of the American Physical Society, Vol. 57, No. 1, pp. B15.02 (March 2012). 30. D. Parks, K. Seu, R. Su, E. Fullerton, E. Shipton, S. Roy, S. Kevan A Symmetry Microscope for Disordered Materials, Bulletin of the American Physical Society, Vol. 57, No. 1, pp. J13.01 (March 2012). 31. K. Seu, S. Roy, R. Su, D. Parks, E. Shipton, E. Fullerton, S. Kevan Momentum transfer resolved memory in a magnetic system with perpendicular anisotropy, Bulletin of the American Physical Society, Vol. 57, No. 1, pp. T15.12 (March 2012). 32. E. Fohtung, J. Kim, M. Marsh, N. Lei, S. Chen, S. Sinha, D. Ravelosona, E. Fullerton, O. Shpyrko, Probing of Strain Mediated Hybrid Multiferroic Device, Bulletin of the American Physical Society, Vol. 57, No. 1, pp. X33.13 (March 2012). 33. S.-W. Chen, H. Guo, K. Dumesnil, V. Lauter, C. Sanchez-Hanke, E. Fohtung, M. Marsh, O. Shpyrko, E. E. Fullerton and S. K. Sinha Interfacial Magnetic Response of PbZr 0.2 Ti 0.8 O 3 /La 0.67 Sr 0.33 MnO 3 Heterostructures Bulletin of the American Physical Society, Vol. 58, No. 1, pp. C14.12 (March 2013). 34. E. Fohtung, J. Woo, M. Holt, S. Hruszkewycz, N. Lei, D. Ravelosona, R. Harder,,M. Marsh, E. E. Fullerton, I. McNulty, and O. Shpyrko Coherent Diffraction Imaging of Device Nanostructures Bulletin of the American Physical Society, Vol. 58, No. 1, pp. J46.02 (March 2013). 35. B. D. Gopman, D. Bedau, J. Katine, E. E. Fullerton, S. Mangin, and A. D. Kent Energy landscape for switching in spinvalve nanopillars with perpendicular magnetic anisotropy Bulletin of the American Physical Society, Vol. 58, No. 1, pp. A18.06 (March 2013). 36. Y. Zhu, Q. Zhang, P. Chen, D.A. Walko, E.M. Dufresne, J.U. Thiele, E.E. Fullerton, Z. Cai, P.G. Evans, and H. Wen Transient grating-induced phase inhomogeneity in FeRh studied by time-resolved hard x-ray nanodiffraction Bulletin of the American Physical Society, Vol. 59, No. 1, pp. H (March 2014). 37. E. Wijerathna, J. W. Kim, S. W. Chen, R. Harder, S. Manna, B. Kiefer, E. E. Fullerton, E. Fohtung, J. De la Venta, O. Shpyrko Magnetostriction in Ni Nanowires: Coherent X-ray Diffraction and Density Functional Analysis Bulletin of the American Physical Society, Vol. 59, No. 1, pp. W (March 2014). 38. J. W. Kim, E. Fohtung, S. Manna, S. Dietze, A. Ulvestad, R. Harder, E. E. Fullerton, O. Shpyrko Inhomogeneous strain of single-crystalline polyhedral gold nanocrystals revealed by coherent x-ray diffraction imaging Bulletin of the American Physical Society, Vol. 59, No. 1, pp. F (March 2014). III. Other Presentations/Works C. WORK IN PROGRESS (Only use if actual materials will be forwarded with the review file. Discouraged unless the proposed action is cross-over or appraisal) New publications marked with can be found at the follow link: I have provided the information contained in the Biography/Bibliography packet or have reviewed it for accuracy. Signature 9/18/14 Date

51 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/2017 UCSD ACADEMIC BIOGRAPHY Section I Personal Data Name: Last, Department Previous Applicable Employment Please show a full account of your time from the date of your first academic (or otherwise relevant) employment up to the present, including any periods when you may not have been employed. Indicate part time appointments. Show salary or approximate annual earnings in all cases. Please include all previous University of California employment. You may provide supplementary information if necessary. Period of employment From: To: Institution, firm or organization of employment Location Rank, title, or position UC Berkeley Berkeley, CA Postdoctoral Researcher 2013-present UC San Diego San Diego, CA Assistant Professor Education School, college, university, or hospital (internship, residency, or fellowship) Ecole Polytechnique Universitaire de Lille Dates of attendance Location Major subject or field Degrees or certificates Date received Lille, France Electrical Engineering/ Telecommunications M.Sc 2006 Université Paris Sud Orsay, France Physics Ph.D 2010 Please indicate areas of sub-specialization or board certification, if any. Also include a list of special licenses or permits and the dates received.

52 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/2017 Section II Professional Data Please list your activities in each of the following eight categories. Please provide dates of awards or service. (a) University Service (Include service at the departmental, college, Academic Senate, campus-wide, and system-wide levels.) Member of the Berkeley Postdoctoral Association (BPA), Vice President of Education, Toast of Berkeley, and Liaison with UC Berkeley, 2012 Member of ECE Graduate Recruiting and Admissions committee, , , (Continuing) CAL IT2 discussions and meeting with visitors from Osaka University on on strategic collaboration areas Junior faculty meetings with ECE ABET evaluator on Member of the Advisory board of the UCSD center for AIDS research. Member of ECE Diversity and Outreach Committee, , Member of ECE 50 th Anniversary Committee, Teaching in the COSMOS Discovery lecture series (2015 and 2016) Talk at the QI Mixer February, 2016 Full Steam ahead Lab tours (October 2015) Panelist in the 2016 NSF CAREER session (April 2016) (b) Memberships (Include scholarly societies, professional boards, civic organizations, etc.) Optical Society of America (OSA) The New York Academy of Sciences Material Science Society (MRS) American Physical Society (APS) (c) Honors and Awards (Include the dates they were received.) The Fellowship for Excellence from the French Foreign Affairs Ministry ( ) French Research Ministry Fellowship ( ) Young Scientist Award from the International Union of Radio Science (URSI), 2008 National Award from The Chancellery of Paris Universities Richelieu Prize for the best Ph.D in Physics in France, including Material Sciences. Technology, and Chemistry, 2010 Hellman Fellowship (2015) National Science Foundation (NSF) Career Award (2016)

53 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/2017 (d) Contracts and Grants (Provide the following information for current contracts and grants.) Title Granting agency Amount of total award (include indirect costs) Time period of contract/grant Role (e.g. PI, coinvestigator, project leader, etc.) List co- PIs/corresponding share of total award (total must = 100%) MURI: Near-Field nanophotonics for energy efficient computing and communication (NECOM) Office of Naval Research (ONR) $4,500, /29/13-07/28/18 Co-PI 25% Shaya Fainman, Xiang Zhang, Bahram Jalali, Eric Fullerton, Paul Yu. Qualcomm CSRO Multipolar Optical Materials via Qualcomm Institute $60,000 07/01/14 07/01/15 PI 100% Active Fano Resonances Meta-plasmonic interconnects (MORPH) ZIVA Corporation $303,404 11/10/14-11/30/16 PI 100% Hellman faculty fellowshipsupport for research and creative activities UCSD Academic Affairs $46,983 07/01/15 06/30/16 PI 100% Frontiers of innovation scholars (FISP) Fellowship for undergraduate researchers CAREER: Bound state in the continuum lasers. UCSD Office of Research Affairs (ORA) National Science Foundation (NSF) $25,000 02/03/16 09/30/16 PI 100% $500,000 03/01/16-02/28/21 PI 100% (e) External Professional Activities (Examples include, but are not limited to, presentation of papers and lectures, technical service to organizations and agencies, acting as a reviewer of journal or book manuscripts or contract and grant proposals, or professional committee service.) Acting reviewer for the following journals (selected): Nature Publishing Group, Physics Review, OSA (Optical Society of America), Optics letters, Optics Express, Nanoletters Reviewer at NSF (National Science Foundation) Panels, Reviewer at DoE (Department of Energy) Panels, Chair of sessions at SPIE Optics+Photonics (San Diego, 2016) Committee member of the IEEE IPC (IEEE Photonics Conference, Hawaii, USA, 2016) 2016 IPR Committee Members, Vancouver, Canada (f) Most Significant Contributions to Promoting Diversity (Examples include, but are not limited to, developing strategies for the educational or professional advancement of students in underrepresented groups, contributions that promote equitable access and diversity in education, and in activities such as recruitment, retention, and mentoring.) Mentor and Evaluator, Undergraduate Projects in the Center for Information Technology Research in the Interest of Society (CITRIS). Mentor and Supervisor, Summer Academy at the NSF-Center research program for undergraduate students.

54 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/2017 Introduction to the Basics of Computer Science for inmates. Member of the board of the IDEA center. With the IDEA (Inclusion, Diversity, Excellence and Advancement) center, Lab tour for currently enrolled transfer engineering students (10-15 students) on 4/11/2014. Many of the students then came to me afterwards and expressed interest in research. Member and advisor of the NSBE (National Society of Black Engineer) UCSD. Reception at the Annual Breakfast with the Deans program for admitted, diverse engineering students. 4/04/2014 [Triton Engineering Student Council] Event at the faculty club, welcoming transfer students. Minority faculty Development Workshop 2016, UC Berkeley, USA (g) Other Activities (List those that do not fit into categories a f above, including community service) Present, Member of the Commonwealth Club of San Francisco (h) Student Instructional Activities 1. Please provide the following summary data for all courses taught during this review period (may attach): Course # and Title Quarter #Enrolled % Recommend Instructor ECE 107 Electromagnetism WI % ECE 100 Linear Electronic Systems WI % ECE 190 Engineering Design FA15 1 n/a ECE 282 Geometry and Light SP % ECE 100 Linear Electronic Systems WI % 2. Please list all students mentored outside of the structured classroom setting. Please list by category (e.g., undergraduate research students, masters or doctoral candidates, postdoctoral or medical fellows, interns, residents) and indicate your role (e.g., thesis adviser, research adviser) for each student. For graduate students, indicate the year degree received when appropriate. Undergraduate Research Students: Sushant Kumar research adviser. Fall 2014-Spring 2015 Andrew Chen research adviser. Fall 2014-Spring 2015 Jun Lu research adviser. Fall 2015-Spring 2016 Shreyash Bhattarai research adviser. Fall 2015-Spring 2016 John H. Cao research adviser. Spring 2016-Present Masters Students: Doctoral Students: Ashok Kodigala, Primary/Thesis adviser, admitted FA13, passed prelim FA14 Li-Yi Hsu, Primary/Thesis adviser, admitted FA14, passed prelim WI16 Babak Bahari, Primary/Thesis adviser, Admitted WI15, passed prelim SP16 Junhee Park, Primary adviser, Admitted SU15 Postdocs: Dr. Thomas Lepetit, Postdoc Adviser, 02/14 08/15. [Now at ONERA (Paris, France)] Dr. Ricardo Tellez-Limon, Postdoc Adviser, 10/ [Now at CISESE Monterrey, Nano-optics Mexico] Dr. Matthieu Dupre, Postdoc Adviser, 06/16- Present Other (List):

55 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/2017 Graduate Exam Committee type/category # sat on during current review period ECE Title in Italics ECE Dept. Other Departments MS Comprehensive / MS Plan II (Comprehensive Exam) MS Research / MS Plan I (Thesis) Thesis Defense Exams / Ph.D. Final Defense 2 PhD Research Exam (thesis proposal) PhD Comprehensive / Pre Lim (without MS, with MS) 5 Senate Exam Advance to Candidacy" / UQE 6 1 List students graduated during this review period: (i) External Reviews of Primary Creative Work List only significant, independent reviews of the work e.g., independent reviews or feature articles appearing in journals or online venues, major newspapers, books, or catalogs. Forms of review and venues may vary by department. (Please do not include advertisements, brief mention of candidate s name or work, event listings, minor blog chatter, or self-promotional or commercial items.)

56 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/2017 Section III - Bibliography A. PRIMARY PUBLISHED OR CREATIVE WORK This section should include original peer-reviewed work that appears in the open literature and can be reasonably expected to be found in libraries outside UCSD, or an appropriately documented listing of creative endeavors such as performances or shows of artistic works. In addition to published work, this section may include items that are in press (i.e., accepted for publication in final form) or formally accepted (i.e., the publisher s binding acceptance of entire corpus has been received). Such items should clearly indicate in press or accepted somewhere in the citation. Do not include items that have been submitted for consideration but have not yet been accepted. Materials associated with items in this section should be submitted with the file. I. Original Peer Reviewed Work or Listing of Creative Endeavors a. Refereed Journal Articles (All From A.I) 1. B. Kanté, A. Ourir, S.N. Burokur, F. Gadot, and A. delustrac, Metamaterials for optical and radio communications, Comptes Rendus Physique, Vol. 9, No. 1 (January 2008), pp B. Kanté, A. delustrac, J-M. Lourtioz, and F. Gadot, Engineering resonances in infrared metamaterials, Optics Express, Vol. 16, No. 10 (May 2008), pp B. Kanté, A. dlustrac, J-M. Lourtioz, and S.N. Burokur, Infrared cloaking based on the electric response of split ring resonators, Optics Express, Vol. 16, No. 12 (June 2008), pp B. Kanté, S.N. Burokur, A. Sellier, A. delustrac, J-M. Lourtioz, Controlling plasmon hybridization for negative refraction metamaterials, Physical Review B, Vol. 79, No. 7 (February 2009), 4 pages. 5. A. Sellier, S.N. Burokur, B. Kanté, and A. delustrac, Negative refractive index metamaterials using only metallic cut wires, Optics Express, Vol. 17, No. 8 (April 2009), pp S.N. Burokur, A. Sellier, B. Kanté, and A. delustrac, Symmetry breaking in metallic cut wire pairs metamaterials for negative refractive index, Applied Physics Letters, Vol. 94, No. 20 (May 2009), 3 pages. 7. B. Kanté, A delustrac, and J-M. Lourtioz, In plane coupling and field enhancement in infrared metamaterials surfaces, Physical Review B, Vol. 80, No. 3 (July 2009), 6 pages. 8. B. Kanté, D. Germain, A. delustrac, Experimental demonstration of a non-magnetic metamaterial cloak at microwave frequencies, Physical Review B, Vol. 80, No. 20 (November 2009), 6 pages. 9. B. Kanté, J-M. Lourtioz, and A. delustrac, Infrared metafilms on dielectric substrate, Physical Review B, Vol. 80, No. 20 (November 2009), 5 pages. 10. B. Kanté, A delustrac, and J-M. Lourtioz, Low loss negative index metamaterials with one type of metaatom, Photonics and Nanostructures; Fundamentals and Applications, Vol. 8, No. 2 (May 2010), pp B. Kanté, K. O Brien, A. Niv, X. Yin, and X. Zhang, Proposed isotropic negative index in 3D optical metamaterials, Physical Review B; Rapid Communications, Vol. 85 (January 2012), 5 pages. 12. K. O Brien, N.D. Lanzillotti-Kimura, H. Suchowski, B. Kanté, P. Park, X. Yin, and X. Zhang, Reflective interferometry for optical metamaterial phase measurements, Optics Letters, Vol 37, No. 19 (October 2012), pp B. Kanté, Y-S Park, K. O Brien, D. Shuldman, N.D. Lanzillotti Kimura, Z.J. Wong, X. Yin, and X. Zhang, Symmetry breaking and optical negative index of closed nanorings, Nature Communications, Vol. 3, (November 2012), 7 pages.

57 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/ M. Gharghi, E. Fathi, B. Kanté, S. Sivoththaman, and X. Zhang, Heterojunction silicon wire solar cells, Nano Letters, Vol. 12, (November 2012), pp B. Kanté, D. Germain, and A. delustrac, Near field imaging of refraction via the magnetic field, Applied Physics Letters, Vol. 104, No. 2 (January 2014), 3 pages. 16. S.Yang, X. Nie, X. Yin, B. Kanté, P. Zhang, J. Zhu, Y. Wang, and X. Zhang, Feedback-driven self-assembly of symmetry-breaking optical metamaterials in solution, Nature Nanotechnology Vol. 9, (December 2014), pp , (Title Change, From Accepted) 17. J.S.T. Smalley, F. Vallini, B. Kanté, Y. Fainman, Modal amplification in active waveguides with hyperbolic dispersion at telecommunication frequencies, Optics Express, Vol. 22, No. 17 (August 2014), pp (From A.I.18) 18. T. Lepetit and B. Kanté, Controlling multipolar radiation with symmetries for multiple bound states in the continuum, Physical Review B, Vol. 90, No. 24 (December 2014), 4 pages. (From A.I.19) 19. A. Kodigala, T. Lepetit, and B. Kante, Engineering resonance dynamics of plasmon hybridized systems, Journal of Applied Physics, Vol. 117, No. 2 (January 2015), pp T. Lepetit and B. Kanté, Cramér-Rao Bounds for Determination of Electric and Magnetic Susceptibilities in Metasurfaces, Optics Express, Vol. 23, No. 3 (February 2015), pp K. O Brien, H. Suchowski, J. Rho, A. Salandrino, B. Kante, X. Yin, and X. Zhang, Predicting nonlinear properties of metamaterials from the linear response, Nature Materials, Vol. 14, (April 2015, pp T. Lepetit and B. Kanté, Metamaterial Quasi-phase matching, Nature Photonics, Vol. 9, (March 2015), pp L.Y. Hsu, T. Lepetit, and B. Kanté, Extremely Thin Dielectric Metasurface for Carpet Cloaking, Progress In Electromagnetics Research, Vol. 152, (2015), pp A. Chen, A. Kodigala, T. Lepetit, and B. Kanté, Multipoles of even/odd split-ring resonators, Photonics, Vol. 2, (August 2015), pp J. S. T. Smalley, F. Vallini, S. Shahin, B. Kante, and Y. Fainman, Gain-Enhanced High-k Transmission through Metal-Semiconductor Hyperbolic Metamaterials, Optical Materials Express, Vol. 5, No. 10 (September 2015), pp T. Lepetit and B. Kanté, Simultaneous Stokes Parameters, Nature Photonics, Vol. 9, (November 2015), pp R. Tellez-Limon, B. Bahari, L-Y. Hsu, J-H. Park, A. Kodigala, and B. Kanté, Integrated metaphotonics: symmetries and confined excitation of LSP resonances in a single metallic nanoparticle, Optics Express, Vol. 24, No. 13 (June 2016), pp

58 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/2017 II. Review and Invited Articles III. Books and Book Chapters (All From A.II) 1. A. de Lustrac, S.N. Burokur, P-H. Tichit, B. Kanté, R. Ghasemi and D. Germain Space Coordinate Transformation and Applications, in Metamaterials. Dr. Xun-Ya Jiang, Ed. Online: InTech, (Available from: DOI: / Available from: , pp A. delustrac, S.N. Burokur, B. Kanté, A. Sellier and D. Germain Design and Characterization of Metamaterials for Optical and Radio Communications, in Metamaterials. Dr. Xun-Ya Jiang, Ed. Online: InTech, (DOI: / Available from: , pp B. Kanté, Metamaterials, from microwaves to optics : Theory and Applications, EDP Sciences, Ed. (ISBN ). 2009, pp IV. Refereed Conference Proceedings (From A.III) 1. B. Kanté, S. N. Burokur, F. Gadot, A. Aassime, B. Belier, J. Mangeney, and A. de Lustrac, "Matériau main gauche fonctionnant à 2µm," 15 th émes Journés Nationales Microondes (JNM 2007), Toulouse, France, May 23-25, 2007, 4 pages. (From B.I.1) 2. B. Kanté, S.N. Burokur, F. Gadot, and A. de Lustrac, Asymmetric left-handed metamaterial in microwave and infra-red regimes at normal incidence, IEEE Antennas and Propagation Society International Symposium, Honolulu, HI, June 9, 2007, pp (From B.I.2) 3. B. Kanté, S.N. Burokur, F. Gadot, and A. delustrac, Asymmetric geometry creates a negative index metamaterial in the microwave regime, IEEE Antennas and Propagation Society International Symposium, Honolulu, Hi, June 9, 2007, pp (From B.I.3) 4. B. Kanté, A. delustrac, and F. Gadot, Theoretical and experimental analyze of plasmonic resonances in infrared metamaterials under normal to plane incidence, Proceedings of SPIE Europe, Conference: Conference on Metamaterials III, Strasbourg, France, April 07, 2008, 6 pages. (From B.I.4) 5. B. Kanté, S.N. Burokur, F. Gadot, and Andre delustrac, Fully characterization of planar infrared metamaterials from far field diffraction pattern, Proceedings of SPIE Europe, Conference on Metamaterials III, Strasbourg, France, April 07, 2008, Vol. 6987, 5 pages. (From B.I.5) 6. P.H. Tichit, B. Kanté, S.N. Burokur, and A delustrac, Design of polygonal and elliptical invisibility cloaks, Proceedings of META 08; NATO Advanced Research Workshop, Marrakesh-Morocco, May 7-10, 2008, pp (From B.I.6) 7. B. Kanté, R. Ghasemi, A. delustrac, and J-M. Lourtioz, Negative refraction in split-ring-resonator stack at normal incidence, SPIE Conference on Metamaterials - Fundamentals and Applications II, San Diego, CA, August 02, 2009, Vol. 7392, 5 pages. (From B.I.7)

59 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/ B. Kanté, A. de Lustrac, and J-M. Lourtioz, Infrared metamaterials and plasmons engineering, SPIE Conference on Metamaterials IV, Prague, Czech Republic, April 20, 2009, Vol. 7353, 6 pages. (From B.I.9) 9. B. Kanté, A. delustrac, and J-M. Lourtioz, Low-loss infrared metallo-diellectric metamaterials: theory and applications, SPIE Conference on Metamaterials IV, Prague, Czech Republic, April 20, 2009, Vol. 7353, 7 pages. (From B.I.10) 10. A. Sellier, S.N. Burokur, B. Kanté, and A. delustrac, Novel cut wires metamaterial exhibiting negative refractive index, 2009 IEEE International Workshop on Antenna Technology "Small Antennas and Novel Metamaterials, Santa Monica, CA, March 2-4, 2009, pp (From B.I.11) 11. K. O'Brien, H. Suchowski, J. S. Rho, B. Kanté, X. Yin, and X. Zhang, Mode matching for optimal plasmonic nonlinear generation, American Physical Society (APS) March Meeting, Baltimore, MD, March 18-22, 2013, Vol. 58, No. 1, pp.??. (From B.I.15) 12. K.P. O'Brien, H. Suchowski, J.S. Rho, A. Salandrino, B. Kanté, X. Yin, and X. Zhang, Mode matched harmonic generation in plasmonic nanostructures, CLEO: QELS_Fundamental Science, San Jose, CA, June 9-14, 2013, 2 pages. (From B.I.16) 13. S. Yang, X. Yin, B. Kanté, P. Zhang, J. Zhu, Y. Wang, and X. Zhang, Selective self-assembly of symmetry- breaking nanoplasmonic structures, CLEO: QELS Fundamental Science, San Jose, CA, June 8-13, 2014, pp (From B.I.17) 14. J.S.T. Smalley, F. Vallini, B. Kanté, and Y. Fainman, General Conditions for Lossless Propagation in Near-Infrared Hyperbolic Metamaterial Waveguides, CLEO: QELS_Fundamental Science, San Jose, CA, May 2015, 2 pages. 15. S. Yang, X. Ni, X. Yin, B. Kante, Y. Wang, X. Zhang, Metamaterials Assembled by Light, CLEO: Science and Innovations, May 1, 2015, San Jose, CA, May 2015, 2 pages. 16. L.Y. Hsu, T. Lepetit, B. Kante, Carpet cloak with graded dielectric metasurface, SPIE Nanoscience+ Engineering, San Diego, CA, August 2015, 1 page. 17. A. Kodigala, T. Lepetit, B. Kante, Enhancing resonance dynamics in plasmonics, SPIE Nanoscience+ Engineering, San Diego, CA, August 2015, 2 pages. 18. J.S.T. Smalley, F. Vallini, B. Kante, S. Shahin, C. Riley, Y. Fainman, Gain-enhanced hyperbolic metamaterials at telecommunication frequencies, SPIE Nanoscience+ Engineering, San Diego, CA, August 2015, 2 pages. B. OTHER WORK This section should include other published or creative works that you wish to list to demonstrate scholarly activity. Materials associated with items in this section need not be submitted with the file. If you believe that a work is particularly important, please discuss it in your personal statement. Describe the activity, product, or outcomes and include metrics to demonstrate impact, value, or innovative qualities. The department may comment on work in this section as a basis for advancement. I. Other Conference Proceedings 1. B. Kanté, F. Gadot, S.N. Burokur, and A. delustrac, Experimental and theoretical characterization of optical metamaterials, Proceedings of META 08; NATO Advanced Research Workshop, Marrakesh- Morocco, May 7-10, (From B.I.7)

60 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/ B Kanté, A. delustrac, J-M. Lourtioz, Low loss negative index metamaterials with one type of metaatom, 8th International Symposium on Photonic and Electromagnetic Crystal Structures (PECS-VIII), Sydney, Australia, April 5, (From B.I.12) 3. B. Kanté and X. Zhang, Symmetry breaking and negative coupling lead to optical negative index of closed rings, SPIE Optics + Photonics, San Diego, CA, August 11-16, Invited talk (From B.I.13) 4. B. Kanté, D. Germain, and A. delustrac, A non-magnetic invisibility cloak in air, SPIE Optics + Photonics, San Diego, CA, August 11-16, (From B.I.14) 5. B. Kante, Building Novel Nanophotonics Devices Using Symmetry Considerations, SPIE Nanoscience+ Engineering, San Diego, CA, August 1, Invited talk II. Abstracts III. Popular Works a. Other Presentations/Works (From B.III) 1. B. Kanté Parity in Optical metamaterials IEF (Institut d Electronique Fondamentale-- France) December Invited talk (New) 2. B. Kanté Symmetry and Parity of Optical metamaterials IEF (Institut d Electronique de Microelectronique et de Nanotechnologies-- France) December Invited talk (New) 3. B. Kanté and X. Zhang Symmetry breaking and negative coupling lead to optical negative index of closed rings SPIE Optics + Photonics San Diego, USA, August Invited talk 4. B. Kanté and Xiang Zhang, Symmetry and Parity in metamaterials GRC plasmonics, Waterville, Maine, USA June B. Kanté Controlling light with meta-symmetries and couplings California Institute of Technology, USA February Invited talk. 6. B. Kanté Metamaterials from microwave to optics, theory and applications Institut Fresnel, Marseille, France January Invited talk. 7. B. Kanté Metamaterials from microwave to optics, theory and applications UC Berkeley, USA August Invited talk. 8. B. Kante, Resonances and their Symmetries for New Optical Devices, MRS, Spring San Francisco, USA, April 2015, Invited talk 9. B. Kante, Bound state in the continuum optical devices, MRS Fall 2015 Boston, USA, December A. Kodigala, T. Lepetit, and B. Kante, Tailoring Resonances in Hybridized Plasmonic Systems, MRS Fall 2015 Boston, USA, December L.Y. Hsu, T. Lepetit, and b. Kante, Carpet cloaking with ultrathin all-dielectric metasurface, MRS Fall 2015 Boston, USA, December 2016.

61 Review period materials cover: From: 7/1/14 To: 6/30/16 Current review effective: 7/1/ T. Lepetit and B. Kante, Bound States in the Continuum in High-Index Dielectric Resonators: Resonance Trapping of Multipoles, Metamaterials Workshop, July 2015, (UCSD). 13. B. Kante, Bound States in the Continuum in Metamaterials, META 15, the 6th International Conference on Metamaterials, Photonic Crystals and Plasmonics New York, USA, August 2015 Invited talk 14. T. Lepetit, B. Kante, Cramer-Rao Bounds for Anisotropic and Bianisotropic Metasurfaces Susceptibilities, META 15, the 6th International Conference on Metamaterials, Photonic Crystals and Plasmonics New York, August 2015, USA. 15. B. Kante, Bound State in the Continuum Nanophotonic Laser, Days on Diffraction, June 2016, Russia, Invited talk IV. Additional Products of Major Research a. Patent/Patent License 1. Thin and Light Dielectric Metasurface Invisibility Cloaking Devices and Related Applications in Wave Focusing, Interior Design, and Art. Provisional US Patent No , B. Kante and L.-Y. Hsu, filed on October 13, System and Method for Bound State in Continuum Laser Sources. Provisional US Patent No , B.Kante, A. Kodigala, T. Lepetit, Q. Gu, B. Bahari, Y. Fainman, filed on October 30, C. WORK IN PROGRESS This section is optional and should include only items for which there is actual material that will be submitted with the file for review. This section is intended primarily for disciplines in which completion of scholarly work normally occurs over a lengthy period of time, and in which evidence of progress on a project is considered crucial for assessing a candidate s accomplishments. Such evidence might include chapters of a major book or documentation of progress on a major work of art. This section is particularly important for appraisals of assistant professors. For other actions, use of the Work in Progress section is discouraged. When an item is moved from Section C to either Section A or B, it should be annotated accordingly (e.g., from Work in Progress ). Work may also be removed from Section C if it has been abandoned and is no longer in progress, provided that it has been listed in this section for two consecutive review cycles. (It is listed as in progress at one review, as abandoned at the next, and is removed at the third). Although a horizontal line should be used to indicate new items added, the items listed and the numbering scheme may be altered at each review, if necessary, and should be annotated accordingly. Publications marked with can be found at the following link: I have provided the information contained in the Biography/Bibliography packet or have reviewed it for accuracy Signature Date

62 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 UCSD ACADEMIC BIOGRAPHY Section I Personal Data Name: Last, First, Middle Lomakin, Vitaliy Department Electrical and Computer Engineering Title(s) Professor Previous Applicable Employment Please show a full account of your time from the date of your first academic (or otherwise relevant) employment up to the present, including any periods when you may not have been employed. Indicate part time appointments. Show salary or approximate annual earnings in all cases. Please include all previous University of California employment. You may provide supplementary information if necessary. Period of employment From/To Institution, firm or organization of employment Location Rank, title, or position Tel Aviv University, Israel Tel Aviv, Israel Teaching Assistant Tel Aviv University, Instructor (half time), Ph.D. Tel Aviv, Israel Israel student Xellant Herzlia Pituah, Israel Engineer (half time) University of Illinois at Urbana Champaign Urbana, IL Postdoctoral Associate University of Illinois at Visiting Assistant Urbana, IL Urbana Champaign Professor UCSD San Diego, CA Assistant Professor UCSD San Diego, CA Associate Professor From 2014 UCSD San Diego, CA Professor Education School, college, university, or hospital (internship, residency, or fellowship) Dates of attendance Location Kharkiv National University Kharkiv, Ukraine Tel Aviv University Tel Aviv, Israel Major subject or field Radio Physics and Electronics Electrical Engineering - Physical Electronics Degrees or certificates Date received M.S Ph.D Please indicate areas of sub-specialization or board certification, if any. Also include a list of special licenses or permits and the dates received.

63 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 Section II Professional Data Provide a list of your activities, with dates of award or service, in each of the following seven categories (a) University Service (Include service at the departmental, college, Academic Senate, campuswide, and systemwide levels.) Set problems on the University of Illinois ECE Department s qualifying exam, subsection on Electromagnetics 2004 Established a new course: ECE 222c, Applied Electromagnetic Theory - Computational Methods for Electromagnetics, spring quarter 2006 Participated in the revision of graduate level sequence on Electromagnetics, 2006 Gave an invited seminar talk, ECE 296, 2006 Conducted major revisions of ECE 107 (Electromagnetism), Served on the Computer Committee, Prepared example questions for comprehensive MS exam (E&M section), 2008, 2009, 2010 Served on the Space Committee, Established a new course: ECE 280, Analytical Methods in Electromagnetics, 2008 Served on Academic Senate Committee, Served as the Head of ECE Comprehensive MS Exam Committee, (CONTINUED) Served on ECE Ad Hoc committees for academic advancement, (CONTINUED) Served on CMRR Ad Hoc committees for academic advancement, (CONTINUED) Served as CMRR Acting Associate Director, (CONTINUED) (b) Memberships (Scholarly societies, professional boards, civic organizations, etc.). - IEEE, Antennas and Propagation, Magnetics (Senior Member from April 2008) - Full Member of URSI (from Summer 2008) - MRS (c) Honors and Awards (Include the dates they were received). Raj Mittra Travel Grant Award at the 2000 IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, July, 2000, Salt Lake City, Utah. Young Scientist Award at the International Symposium on Electromagnetic Theory (EMTS 2007), Ottawa, Canada, July Young Scientist Award at the General Assembly of the International Union of Radio Science (URSI), Chicago, Illinois, August 2008 (for travel support and daily allowance) Donald G. Dudley, Jr. Undergraduate Teaching Award of the IEEE Antennas and Propagation Society (d) Contracts and Grants (Please provide the following information for current contract and grants): Title Granting Agency Amount of Total Award (include indirect costs) Time period of contract/grant Role, e.g. PI, co-investigator, project leader, etc (If possible, list all co-pi s and corresponding share of total award (total must = 100 %)) NIRT: Opto-Plasmonic Nanoscope, # Academic Senate Research Award Academic Senate Research Award Miniaturization and Optimization of Nanoscale Resonant Oscillators NSF $1,150,000 August 2006 August 2010 Academic Senate, UCSD $9,976 July 2006 June 2007 Academic Senate, UCSD $10,000 July 2007-June 2008 Defense Advanced $1,900,000 July 2007-June Research Projects Agency 2010 (for (DARPA) Phases I and II) co-pi; share: 25% (with Y. Fainman (PI), Groisman, & Schmid- Schoebein) PI; share: 100% PI; share: 100% Co-PI; share: 19% (with Y. Fainman (PI) & C. Tu)

64 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 (MONRO) Patterned Media Project Hitachi $44, PI; share: 100% Patterned Media Project Support from Hitachi $47, PI; share: 100% Academic Senate Academic Senate, UCSD $10,000 July 2008-June PI; share: 100% Research Award 2009 Controlled Lateral and Vertical Exchange in INSIC $35, PI; share: 50% (with E. Fullerton) Patterned Composite Media Patterned Media Project Support from CMRR $25, PI; share: 100% sponsors Media for High-Density Fujitsu $25, PI; share: 100% Recording Optical SPICE CIAN $50, PI; share: 100% Fast Direct Solvers for Scattering from Large Structures Embedded in Layered and Periodic Media BSF $104, UCSD PI; share: 50% (w/ Prof. Boag Amir) Patterned Media Project CMRR Sponsors $25, PI; share: 100% Micromagnetic solvers Western Digital $110, PI; share: 100% Controlled Lateral and Vertical Exchange in Patterned Composite Media Miniaturization and Optimization of Nanoscale Resonant Oscillators (MONRO) INSIC $52, PI; share: 50% Defense Advanced Research Projects Agency (DARPA) $800,000 Phase III (July 2010-March 2012) Co-PI; share: 25% (with Y. Fainman (PI) & C. Tu) Optical SPICE NSF (ERC CIAN) $100, PI; share: 100% High-Performance Hybrid Micromagnetic- Electromagnetic Simulators Optical control of dynamics in spintronic devices Optical SPICE Micromagnetic finite different simulators on GPUs NSF (CONTINUED) $237, PI; share 100% NSF (CONTINUED) $330, PI; share: 50% (with Prof. Lu Sham, Physics) NSF (ERC CIAN) $100, PI; share: 100% (CONTINUED) National Institute of $180, PI; share: 100% Standards (NIST) (CONTINUED) Multi-physics design of recording system for heat assisted magnetic recording Magneto-photonics at the Nanoscale for Heat Assisted Magnetic Recording Advanced Storage Technology Consortium (ASTC), International Disk Drive Equipment and Materials Association (IDEMA) Advanced Storage Technology Consortium (ASTC), International Disk Drive Equipment and Materials Association (IDEMA) $65, PI (with Eric Fullerton and Shaya Fainman); share: 90% $145, Co-PI (with Eric Fullerton and Shaya Fainman); share: 10%

65 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 FastMag simulator and micromagnetic solvers for modeling recording media Western Digital $120, PI; share: 100% FastMag simulator Toshiba $130, PI; share: 100% FastMag simulator Samsung $60, PI; share: 100% Modeling, characterization, and design of highfrequency magnetic materials and FastMag simulator Maxim Labs (CONTINUED) $330, PI (with Eric Fullerton); share: 85% Optical SPICE NSF (ERC CIAN) $50, PI; share: 100% Multi-physics design of recording system for heat assisted magnetic recording FastMag simulator and micromagnetic solvers for modeling recording media Advanced Storage Technology Consortium (ASTC), International Disk Drive Equipment and Materials Association (IDEMA) $65, PI (with Eric Fullerton and Shaya Fainman); share: 80% Western Digital $210, PI; share: 100% FastMag simulator Development of free layers for P-STTM for sub-20nm devices $300, Co-PI (with Eric Fullerton); share: 20% FastMag simulator Toshiba $210, PI; share: 100% Modeling optical fiber bundles Modeling magnetic recording system Materials world network: new functionality in complex magnetic structure with perpendicular anisotropy Development of free-layers for P-STTM for sub 20 nm devices High-Performance algorithms for computational nanoelectromagnetics coupled with density functional theory DARPA $100, Co-PI; share: 100% (a part of a DARPA program of Joe Ford) HGST, WD company $210, PI; share: 100% NSF $450, Co-PI (with Eric Fullerton); share: 50% Semiconductor Research Corp/Intel Corp US-Israel Binational Science Foundation $250, Co-PI (with Eric Fullerton); share: 20% $78, PI; share: 100% (e) External Professional Activities (Examples include, but are not limited to, presentation of papers and lectures, technical service to organizations and agencies, acting as a reviewer of journal or book manuscripts or contract and grant proposals, or professional committee service). Acting as a reviewer of journal manuscripts, books, and proposals for o IEEE Transactions on Antennas and Propagation (2003-present) o IEEE Microwave Wireless Components Letters (2004-present) o Radio Science ( )

66 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 o IEEE Antennas and Wireless Propagation Letters (2005-present) o Journal of Computational Physics (2006-present) o Optics Communications ( ) o Optics Express (2007-present) o Elsevier (2007-present) o Department of Energy (DOE) 2008 o IEEE Electron Device Letters ( ) o IEEE Transactions on Magnetics (2008-present) o International Journal of Millimeter Waves ( ) o Applied Physics Letters (2009-present) o International Journal of Numerical Modelling (2010-present) o Journal of Applied Physics, (2009-present) o National Science Foundation, (2010-present) Presenting papers in conferences o IEEE Antennas and Propagation Symposia (1997 present) o Union of Radio Science (URSI) meetings (1997 present) o Progress in Electromagnetics Research Symposia (PIERS) (2000, 2003) o SPIE ( ) o CLEO ( ) o IEEE International Magnetics Conferences (Intermag) (2006 present) o Magnetism and Magnetic Materials (MMM) Conferences (2006 present) o AFOSR meetings (2003) o Reviews of Progress in Applied Computational Electromagnetics (2009 present) o International Congress on Advanced Electromagnetic Materials in Microwaves and Optics ( ) Invited seminars o KLA Tencor Corporation, San Jose 2004 o Public University of Navarra, Pamplona, Spain, October 2006 o Institute of Radio Physics and Electronics, Kharkov, Ukraine, August 2006 o Kharkov National University, Kharkov, Ukraine, August 2006 o Hitachi Global Technologies, San Jose, June 2007 o Western Digital, San Jose, December 2007 o Tel Aviv University, Israel, December 2007 o Ben Gurion University of Negev, Israel, December 2007 o Hitachi Global Technologies, San Jose, January 2008 o INSIC EHDR program meeting, San Jose, November 2008 o Information Storage Industry Consortium (INSIC), Extremely High Density Recording (EHDR Program Meeting, May 2010 o V. Lomakin, S. Li, D. A. Van Orden, B. Livshitz, Hardware accelerated fast integral equation solvers and the study of optical waves in compound nanoparticle arrays, Institute of Pure and Applied Mathematics, Metamaterials: Applications, Analysis and Modeling, Los Angeles, California, January 25-29, o V. Lomakin, Micromagnetic modeling and recording physics for high density magnetic record, Hitachi GST, San Jose, August, o V. Lomakin, Micromagnetics of complex magnetic structures, Almaden Research Center, IBM, May o University of Michigan, Ann Arbor, March 2012 o Michigan State University, March 2012 o Tel Aviv University, July 2012 o Orsay, France, July 2012 o Nancy, France, July 2012 o Grenoble, France, July 2012 o Strasbourg, France, July 2012 o Kharkiv National University, September 2012 o University of Texas at Austin, October 2012 o Samsung, March 2013 o HGTS, March 2013 o Western Digital Corporation, March 2013 o Seagate, March 2013 o Institute of Radio Physics and Electronics, Ukraine, April 2013

67 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 o Seagate, June 2013 o Zhejiang University, Hangzhou, China, June 2013 o Chengdu, China, June 2013 o Tel Aviv University, Tel Aviv, July 2013 o Kharkiv National University, September 2013 o Queen's College, London, August 2014 o University Paris Sud, Orsay, France, September 2016 o University of Lorraine, Nancy, France, July 2014 o Seagate, March 2014 o Chengdu, China, June 2014 o University of Lorraine, Nancy, France, July 2015 o Ecole De Mines, Nancy, France, December 2015 o HGTS, March 2015 o Western Digital Corporation, January 2015 o Chengdu, China, June 2015 o University of Lorraine, Nancy, France, July 2016 o Samsung, March 2016 o Western Digital Corporation, April 2016 o Intel, June 2016, Invited conference presentations and papers o V. Lomakin, Y. Fainman, Y. Urzhumov, and G. Shvets, "Negative index metamaterials in the near-ir and visible spectra based on thin metal films," International Symposium on Electromagnetic Theory (EMTS 2007), Ottawa, Canada, July o V. Lomakin, Y. Fainman, Y. Urzhumov, and G. Shvets, "Optical metamaterials based on thin metal films: From negative index of refraction to enhanced transmission and to surface wave guidance," SPIE, San Diego, o G. Shvets, Y. Urzhumov, V. Lomakin, M. Davanco, and S. Forest, Negative index materials based on plasmonic and polaritonic components, SPIE, San Diego, California, August o V. Lomakin, B. Livshitz, S. Li, R. Choi, A. Inomata, and H.N. Bertram, Patterned media for 10 Tbit/in2 utilizing dual-section ledge elements, IEEE Intermag 2008, Madrid, Spain, May o V. Lomakin and D. A. Van Orden, Spectral representations for rapid evaluation of periodic Green s functions, 12th International Conference on Mathematical Methods in Electromagnetic Theory, Odessa, Ukraine, June 29 July 02, 2008, p o V. Lomakin and E. Michielssen, Phenomena of microwave enhanced transmission through arrays of subwavelength holes, International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, Pamplona, Spain, September o D. A. Van Orden and V. Lomakin, Rapidly convergent representations for 3D Green s functions for a linear periodic array in free space and near layered media, 2009 Annual Review of Progress in Applied Computational Electromagnetics, Monterey, CA, March 8-12, o D. A. Van Orden and V. Lomakin, Nanoparticle chains coupled with surfaces as optical waveguides and leaky wave antennas, The 4th European Conference on Antennas and Propagation, Barcelona, Spain, April 12-16, o S. Li, R. Chang, D. V. Orden, B. Livshitz, and V. Lomakin, Fast interpolation based integral equation solvers on GPUs, IEEE International Symposium on Antennas and Propagation and CNSCUSNC/URSI National Radio Science Meeting, Toronto, Ontario, Canada, July 11-17, o S. Li, D. A. Van Orden, Fast interpolation method for periodic unit cell problems, EMTS 2010 International Symposium on Electromagnetic Theory, Berlin, Germany, August 16-19, o M. Lubarda, S. Li, B. Livshitz, E. E. Fullerton, and V. Lomakin, Reversal in Patterned Media with Vertical and Lateral Exchange, The 21st Magnetic Recording Conference, San Diego, California, Aug 16-18, o V. Lomakin, S. Li, M. Lubarda, and B. Livshitz, Fast micromagnetic solvers and analysis of magnetic recording systems, The 10th International Workshop on Finite Elements for Microwave Engineering, Meredith, NH, October 12-13, o S. Li, R. Chang, M. Lubarda, B. Livshitz, J. Van Ek, and Vitaliy Lomakin, "Fast micromagnetic solvers for large-scale simulations," 55th Annual Conference on Magnetism and Magnetic Materials, Atlanta, Georgia, November 11-18, o Marco A. Escobar, Marko V. Lubarda, Shaojing Li, Ruinan Chang, Boris Livshitz, Vitaliy Lomakin,

68 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 Advanced micromagnetic analysis of write head dynamics using FastMag, 22th International Conference on Magnetic Recording Heads and Systems, Minneapolis, MN, USA, August 29-31, o A. Boag and V. Lomakin, Generalized Equivalence Integral Equations, EuCap 2012, Prague, March 26-30, o R. Chang, M. Lubarda, M. Escobar, S. Li, and V. Lomakin, Eddy current effects in micromagnetic systems, Joint European Magnetic Symposia, Parma, Italy, September 9-14, o R. Chang and V. Lomakin, Dual basis functions on quadrilaterals for Caldéron preconditioning, International Review of Progress in Applied Computational Electromagnetics (ACES), Monterey, CA, o S. Fu, S. Li, R. Chang, and V. Lomakin, Graphics Processing Units Implementation for Fast Algorithms Solving Electromagnetic Integral Equations, International Review of Progress in Applied Computational Electromagnetics (ACES), Monterey, CA, o D. Gabay, Q. Ding, M. Lubarda, M. Escobar, V. Lomakin, System modeling of energy assisted bit patterned media magnetic recording, 12 th Joint MMM Intermag Conference, Chicago, Illinois, January 14-18, o S. Fu, R. Chang, A. Boag, and V. Lomakin. "Fast Integral Equation Solvers on multi-gpu Computer Systems." International Conference on Electromagnetics in Advanced Applications (ICEAA), September 2013, Torino, Italy, pp o I. Volvach, M. Escobar, M. Lubarda, R. Chang, S. Fu, and V. Lomakin, Synchronization of chains of spin transfer torque oscillators, International French-US workshop: Toward low power spintronic devices, p. 36, San Diego, California, July 8-13, o M. Menarini, M. Lubarda, R. Chang, S. Fu, S. Mangin, E. Fullerton, L. Sham, and V. Lomakin, Models and simulation of all-optical switching in granular FePt media, Magnetic single nano-object workshop and school, Nancy, France, September 8-11, o V. Lomakin, R. Chang, S. Fu, M. Menarini, M. Lubarda, and S. Couture, V. Lomakin, High-performance micromagnetics for magnetic recording and memory applications, IEEE International Magnetics Conference, p. ES-01, May 4-8, 2014, Dresden, Germany. o A. Shlivinski and V. Lomakin, Integral equation formulations for problems of coupling into an array of fibers, International Workshop on Finite Elements for Microwave Engineering, May 14-17, 2014, Chengdu, China. o R. Chang, S. Fu, Shaojing Li, A. Boag, and V. Lomakin, Electromagnetic integral equation and micromagnetic solvers on GPUs, International Workshop on Finite Elements for Microwave Engineering, May 14-17, 2014, Chengdu, China. o M. Menarini, Lu Sham, and Vitaliy Lomakin, Models of all-optical switching in nanogranular magnetic films, Fundamental and Applied NanoElectroMagnetics, Minsk, Belarus,p. 57, May o R. Chang, S. Fu, S. Li, A. Boag, and V. Lomakin, Electromagnetic and micromagnetic solvers on GPUs, IEEE International conference on Microwaves, Communications, Antennas, and Electronic Systems (IEEE COMCAS 2015), Tel Aviv, Israel, November 2-4, o V. Lomakin, Computational tools for magnetization dynamics in nanomagnetic systems, CECAM: High throughput material discovery: Perspectives and challenges in theory and experiment, February 3-6, 2015, Tel Aviv, Israel. o R. Chang, S. Couture, S. Fu, and V. Lomakin, Coupled Micromagnetic and Electromagnetic solvers for modeling non-linear Eddy current effects in nanomagnetic systems, 2015 International Workshop on EM Theory, Modeling and Simulations, June 3-5, Chengdu, China. Member of Technical Program Committees, Steering Committees, and Panels o Member of Technical Program Committee of 2008 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting, San Diego, July 2008 o Member of Steering Committee (Information Systems) of 2008 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting, San Diego, July 2008 o Session organizer, Union of Radio Science (URSI) General Assembly, Chicago, August 2008 o Member of Technical Program Committee of 2 nd International Congress on Advanced on Advanced Electromagnetic Materials and Microwaves and Optics, Pamplona, Spain, August o Member of Technical Program Committee of IEEE International Magnetics Conference, Sacramento, California, May o Member of Technical Program Committee of 2009 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting, Charleston, June 2009 o Member of Technical Program Committee of 3 rd International Congress on Advanced on Advanced

69 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 Electromagnetic Materials and Microwaves and Optics, London, August 2009 o Member of Technical Program Committee of 2010 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting, Toronto, July o Member of Technical Program Committee of 4 th International Congress on Advanced on Advanced Electromagnetic Materials and Microwaves and Optics, London, UK, August o Member of Technical Program Committee of 2010 International Symposium on Electromagnetic Theory, Berlin, Germany, August, o Member of Technical Program Committee of 5 th International Congress on Advanced on Advanced Electromagnetic Materials and Microwaves and Optics, o Member of Technical Program Committee of 2011 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting, Spokane, WA, o Member of Technical Program Committee of 2012 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting o Organizer of International Workshop on Advanced Micromagnetics, San Diego, May 2012 o Served on 2 NSF panels, 2012 o Member of Technical Program Committee of 2013 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting o Member of Technical Program Committee of 2013 Joint MMM/Intermag Conference (CONTINUED) o Member of Technical Program Committee of 2014 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting o Served on 3 NSF panels for ECCS and CISE, 2014 o Member of Technical Program Committee of 2015 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting o Served on 3 NSF panels for ECCS and CISE, 2015 o Member of Technical Program Committee of 2016 IEEE Antennas and Propagation Symposium and North American Radio Science Meeting o Member of Technical Program Committee of 2016 Joint MMM/Intermag Conference o Served on 3 NSF panels for ECCS and CISE, 2016 Media coverage: o Ever-Smaller Lasers Pave the Way For Data Highways Made of Light, Science Magazine, vol. 328, May 14, 2010, o UC San Diego Engineers Demonstrate Smallest Laser to Operate at Room Temperature, Insciences, May4, 2010, o Room-Temperature Microlasers, Technology Review, May 6, 2010, o GPU-Accelerated Electromagnetic and Micromagnetic Simulators, CUDA Spotlight, NVIDIA CUDA GPGPU Parallel Programing Newspaper, Tues., Issue #50, Mar. 22, o Electrical Engineers Build 'No-Waste' Laser, Science Daily, February 9, 2012, o Threshold broken for tiny lasers, BBC News, February 8, 2012, Associate Editor, International Journal of Numerical Modelling, from 2011 (CONTINUED) Chair of the Membership Committee of the IEEE AP Society, from 2012 (CONTINUED) (f) Most Significant Contributions to Promoting Diversity (Examples include, but are not limited to, developing strategies for the educational or professional advancement of students in underrepresented groups, contributions that promote equitable access and diversity in education, and in activities such as recruitment, retention, and mentoring.) Advised Stephen Olivas (University of California, San Diego) ( ) who belongs to an underrepresented group. Stephen did a research project related to the DARPA NACHOS program. This research allowed Stephen to extend his interests in Optics and Photonics and helped him set his career goals. Stephen has been admitted to the graduate program of the Dept. of ECE at UCSD. Advising two graduate students, who belong to underrepresented groups. (Marco Escobar from Oct 2010 and Qian Ding from Sep 2009) Participating in NSF outreach activities: Research Experience for Undergraduates, hosted an REU student (CONTINUED and NEW)

70 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 Participating in NSF outreach activities: Research Experience for Teachers, participated in discussions of defining experiments for the program ( ) Instructed Ph.D. students giving presentations on research and science in San Diego district high schools with primarily minority population ( ) Gave presentation about magnetism and electromagnetism in San Diego district school (2013) Gave presentations about magnetism and electromagnetism in San Diego district school ( ) Advising two graduate students, who belong to underrepresented groups (Mr. Marco Escobar, Oct and Ms. Iana Volvach from Sep 2013) (CONTINUED and NEW) Participated in the ENLACE bi-national summer high school research program at UC San Diego, hosting two female students for the Summer 2016 term (g) Other Activities (List those that do not fit into categories a f above, including community service). (h) Student Instructional Activities 1. Please provide the following summary data for all courses taught during this review period (may attach): Course # and Title Quarter #Enrolled % Recommend Instructor ECE200 (Research Conference) SP16 n/a ECE200 (Research Conference) SP15 n/a ECE107 (Electromagnetism) WI % ECE222B (App Electmag/Electromagne) WI % (weighted rating) ECE200 (Research Conference) WI15 n/a ECE190 (Engineering Design) FA14 n/a ECE182 (Electromagnetic Optcs/GW) FA % ECE200 (Research Conference) SP14 n/a ECE107 (Electromagnetism) WI % ECE222B (App Electmag/Electromagne) WI % (weighted rating) ECE200 (Research Conference) WI14 n/a ECE190 (Engineering Design) FA13 n/a ECE182 (Electromagnetic Optcs/GW) FA %

71 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 2. Please list all students mentored outside of the structured classroom setting. Please list by category (e.g., undergraduate research students, masters or doctoral candidates, postdoctoral or medical fellows, interns, residents) and indicate your role (e.g., thesis adviser, research adviser) for each student. For graduate students, indicate the year degree received when appropriate. Undergraduate Research Students: Name of Student/Your role (thesis adviser, research adviser, etc.) - Richard Choi (University of California, San Diego) / research adviser (July-August 2007) - Stephen Olivas (University of California, San Diego) / research adviser ( ) - Steven Larson (University of California, San Diego) / research adviser (June 2009) - Kyle Bales (University of California, San Diego) / research adviser (June 2009) - Naomi Fitter (NSF REU student) / research adviser (June-August 2010) - Glenn Schuster (UCSD, Calit2 Summer Research Program) / research adviser (June 2011) - Leonardo Alexander Frem (NSF REU student) / research adviser (June 2011) (CONTINUED) - Dor Gabay (NSF REU / Calit2 Summer Program / research adviser) (CONTINUED) - Matthew Hu (research adviser) (CONTINUED) - Amelia Christensen (research adviser) (CONTINUED) Masters Students: Name of Student/Your Role (thesis adviser, research adviser, etc.) - Hakan Bagci (graduated with M.S. from University of Illinois at Urbana Champaign, July 2003) / research adviser - Javier Espigares Martín (UCSD) / research adviser (from June 2011) - Iana Volvach (visiting from Kharkov National University), Ukraine - Peng Zhou (visiting from Tsinghua University, China) - Qian Ding (UCSD) / thesis adviser (MS SP12) - Dor Gabay (UCSD) / thesis adviser (MS SU15) (CONTINUED) - Philipp Scheid (Visiting from Ecole De Mines, Nancy, France) / internship advisor - Weilong Cui (Visiting from Pekin University) / internship advisor Doctoral Students: Name of Student/Your Role (thesis adviser, research adviser, etc.) - Meng Lu (UIUC) / research adviser ( ) - Jun Meng (graduated with Ph.D. from the UIUC, July 2006) / research adviser - Liang Feng (UCSD) / thesis adviser ( ) (50% co-advised with Shaya Fainman) (PhD SU10) - Derek Van Orden (UCSD, Physics) / thesis adviser (PhD FA11) - Shaojing Li (UCSD) / thesis adviser (PhD FA12) - Marko Lubarda (UCSD, Mat & Sci. Engineering) / thesis adviser (PhD FA12) - Marco Escobar (UCSD) / thesis adviser (Ph.D. SP16) (CONTINUED) - Ruinan Chang (UCSD) / thesis adviser) (Ph.D. FA14) (CONTINUED) - Marco Menarini (UCSD) / thesis adviser (passed qual FA14) (CONTINUED) - Sidi Fu (UCSD) / thesis adviser (passed qual FA14) (CONTINUED) - Simon Couture / thesis adviser (passed qual FA14) (CONTINUED) - Majd Kuteifan (UCSD) / thesis adviser (passed qual FA2015) (CONTINUED) - Iana Volvach (UCSD) / thesis adviser (admitted FA14, passed prelim SP16) - Nojan Motavedi (UCSD) / thesis adviser (co-advised with Joseph Ford, passed prelim SP15) - Sicong Yan (visiting from Tongji University) / internship advisor Postdocs: Name of Student/Your Role - Boris Livshitz / research adviser ( ) Other (List): Name/Your Role - Meng Lu (Ph.D. student, University of Illinois at Urbana Champaign; Staff Research Associate, University of California, San Diego, June-July 2006 ) / research adviser

72 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 Please fill in the table below for number and type of exam committees you ve served on throughout the review period: Graduate Exam Committee type/category # sat on during current review period ECE Title in Italics ECE Dept Other Depts MS Comprehensive / MS Plan II (Comprehensive Exam) MS Research / MS Plan I (Thesis) 1 Thesis Defense Exams / Ph.D. Final Defense 13 3 PhD Research Exam (thesis proposal) PhD Comprehensive / Pre Lim (without MS, with MS) 13 Senate Exam Advance to Candidacy" / UQE 12 3 List students graduated during this review period: - Marco Escobar (UCSD), Ph.D. SP16, currently Assistant Professor, Universidad de La Salle Bajio, Mexico - Ruinan Chang (UCSD), Ph.D. FA14, currently with Oracle, San Diego - Philipp Scheid, M.S., SP16, Ecole De Mines, Nancy, France - Weilong Cui, M.S., SP14, Tsinghua University - Dor Gabay (UCSD), M.S. SU15 (i) (External Reviews of Primary Creative Work List only significant, independent reviews of the work e.g., independent reviews or feature articles appearing in journals or online venues, major newspapers, books, or catalogs. Forms of review and venues may vary by department. (Please do not include advertisements, brief mention of candidate s name or work, event listings, minor blog chatter, or self-promotional or commercial items.)

73 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 Section III Bibliography A. PRIMARY PUBLISHED OR CREATIVE WORK This section should include original peer-reviewed work that appears in the open literature and can be reasonably expected to be found in libraries outside UCSD, or an appropriately documented listing of creative endeavors such as performances or shows of artistic works. In addition to published work, this section may include items that are in press (i.e., accepted for publication in final form) or formally accepted (i.e., the publisher s binding acceptance of entire corpus has been received). Such items should clearly indicate in press or accepted somewhere in the citation. Do not include items that have been submitted for consideration but have not yet been accepted. Materials associated with items in this section should be submitted with the file. I. Original Peer-Reviewed Work or Listing of Creative Endeavors a. Refereed Journal Articles (All From A.I) 1. N. N. Kolchigin, V. Lomakin, and S. N. Pivnenko, Distinctive features of a pulsed beam scattering on a plane surface, International Journal of Infrared and Millimeter Waves, Vol. 18 (November 1997), pp N. N. Kolchigin, S. N. Pivnenko, and V. Lomakin, Influence of losses in a dielectric half-space on the characteristics of a reflected three-dimensional pulsed beam, Telecommunications and Radio Engineering, Vol. 52 (August 1998), pp Y. Pemper, V. Lomakin, E. Heyman, R. Kastner, and R. W. Ziolkowski, Moving coordinate frame FDTD analysis of long range tracking of pulsed fields in graded index waveguides, Progress in Electromagnetic Research (PIER), Vol 26 (March 2000), pp Extended Abstract in Journal on Electromagnetic Waves and Applications, Vol. 14 (April 2000), pp E. Heyman, V. Lomakin, and G. Kaiser, Physical source realization of complex source pulsed beams, The Journal of the Acoustical Society of America, Vol. 107 (April 2000), pp V. Lomakin, B. Z. Steinberg, and E. Heyman, UWB analysis of EM fields in complex laminates: An MRA homogenization approach, in Ultra-Wideband, Short-pulse Electromagnetics, Vol. 5 (March 2002), pp V. Lomakin and B. Z. Steinberg, Effective resonance representation of propagators in complex ducts a multiresolution homogenization approach, IEEE Transactions on Antennas and Propagation, Vol. 51 (September 2003), pp V. Lomakin, B. Z. Steinberg, E. Heyman, and L. B. Felsen, Multi-resolution homogenization of field and network formulations for multi-scale laminate dielectric slabs, I: Field theory, IEEE Transactions on Antennas and Propagation, Vol. 51 (September 2003), pp V. Lomakin, N. W. Chen, S. Q. Li, and E. Michielssen, Enhanced transmission through two-period arrays of sub-wavelength holes, IEEE Microwave and Wireless Components Letters, Vol. 14 (July 2004), pp H. Bagci, A. Yilmaz, V. Lomakin, and E. Michielssen, Fast solution of mixed-potential time-domain integral equations for half-space environments, IEEE Transactions on Geoscience Remote Sensing, Vol. 43 (February 2005), pp V. Lomakin and E. Michielssen, Enhanced transmission through metallic plates perforated by arrays of subwavelength holes and sandwiched in between dielectric slabs, Physical Review B, Vol. 71, No. 23 (June 2005), pp V. Lomakin, S.Q. Li, and E. Michielssen, Manipulation of stop-band gaps of periodically perforated conducting plates, IEEE Microwave and Wireless Components Letters, Vol. 15 (December 2005), pp

74 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ V. Lomakin and E. Michielssen, Transmission of transient plane waves through perfect electrically conducting plates perforated by periodic arrays of subwavelength holes, IEEE Transactions on Antennas and Propagation, Vol. 54 (March 2006), pp A. Boag, V. Lomakin, and E. Michielssen, Non-uniform grid time domain (NGTD) algorithm for fast evaluation of transient wave fields, IEEE Transactions on Antennas and Propagation, Vol. 54, No. 7 (2006) pp V. Lomakin, Y. Fainman, Y. Urzhumov, and G. Shvets, Doubly negative metamaterials in the near infrared and visible regimes based on thin films nanocomposites, Optics Express, Vol. 14, No. 23 (2006) pp M. Beruete, M. Sorolla, M.N. Cía, F. Falcone, I. Campillo, and V. Lomakin, Extraordinary Transmission and Left-Handed Propagation in miniaturized stacks of doubly periodic subwavelength hole arrays, Optics Express, Vol. 15, No.3 (2007) pp V. Lomakin and E. Michielssen, Beam transmission through periodic sub-wavelength hole structures, IEEE Transactions on Antennas and Propagation, Vol. 55, No. 6 (2007) pp V. Lomakin, B. Livshitz, and N. Bertram, Magnetization Reversal in Patterned Media, IEEE Trans. Magnetics, Vol. 43, No. 6 (2007) pp V. Lomakin, S. Li, and E. Michielssen, "Transmission through and wave guidance on metal plates perforated by periodic arrays of through-holes of subwavelength coaxial cross-section," Microwave and Optical Technology Letters, Vol. 49, No. 7 (2007) pp L. Feng, K.A. Tetz, B. Slutsky, V. Lomakin, and Y. Fainman, Fourier plasmonics: Diffractive focusing of inplane surface plasmon polariton waves, Applied Physics Letters, Vol. 91 (2007) p (3 pages). 20. V. Lomakin, M. Lu, and E. Michielssen, Optical wave properties of nano-particle chains coupled with a metal surface, Optics Express, Vol. 15 (2007) pp V. Lomakin, R. Choi, B. Livshitz, S. Li, A. Inomata, and H.N. Bertram, Dual-layer patterned media ledge design for ultra-high density magnetic recording, Applied Physics Letters, Vol. 92 (2008) p B. Livshitz, A. Inomata, H.N. Bertram, and V. Lomakin, Precessional reversal in exchange coupled composite magnetic elements, Applied Physics Letters, Vol. 91 (2007) p (3 pages). 23. B. Livshitz, R. Choi, A. Inomata, H.N. Bertram, and V. Lomakin, Fast precessional reversal in perpendicular composite patterned media, Journal of Applied Physics, Vol. 103, No. 7 (2008) p. 07C516 (3 pages). 24. H.N Bertram, M. Schabes, V. Lomakin, and B. Livshitz, Nucleation in composite medium grains, Journal of Applied Physics, Vol. 103, No. 7 (2008) p. 07F508 (3 pages). 25. A. Mizrahi, V. Lomakin, B.A. Slutsky, M.P. Nezhad, L. Feng, and Y. Fainman, Low threshold gain metal coated laser nanoresonators, Optics Letters, Vol. 33, No. 11 (2008) pp B. Livshitz, H.N. Bertram, and V. Lomakin, Precessional magnetization reversal in composite patterned media: Dependence on applied field parameters, IEEE Transactions on Magnetics, Vol. 44, No. 11 (2008) pp (From Accepted) 27. V. Lomakin, S. Li, B. Livshitz, A. Inomata, and H.N. Bertram, Patterned media for 10 Tbit/in2 utilizing dualsection ledge elements, IEEE Transactions on Magnetics, Vol. 44, No. 11 (2008) pp (invited) 28. L. Feng, M. H. Lu, V. Lomakin, and Y. Fainman, Plasmonic photonic crystal with a complete bandgap for surface plasmon polariton waves, Applied Physics Letters, Vol. 93, No. 23 (2008) pp D. Van Orden, Y. Fainman, and V. Lomakin, Optical waves on nano-particle chains coupled with surfaces, Optics Letters, Vol. 34, No. 4 (February 2009) pp

75 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ L. Feng, D. A. Van Orden, M. Abashin, Q. J. Wang, Y. F. Chen, V. Lomakin, and Y. Fainman, Nanoscale optical field localization by resonantly focused plasmons, Optics Express, Vol. 17, No. 6 (March 2009) pp B. Livshitz, A. Boag, H. N. Bertram, and V. Lomakin, Nonuniform grid algorithm for fast calculation of magnetostatic interactions in micromagnetics, Journal of Applied Physics, Vol. 105 (2009) p. 07D D S. Li, B. Livshitz, H. N. Bertram, E. E. Fullerton, and V. Lomakin, Microwave assisted magnetization reversal and multilevel recording in composite media, Journal of Applied Physics, Vol. 105 (2009) p. 07B B S. Li, B. Livshitz, H. N. Bertram, A. Inomata, E. E. Fullerton, and V. Lomakin, Capped bit patterned media for high density magnetic recording, Journal of Applied Physics, Vol. 105 (2009) p. 07C C B. Livshitz, A. Inomata, N. Bertram, and V. Lomakin, Analysis of recording in bit patterned media with parameter distributions, Journal of Applied Physics, Vol. 105 (2009) p. 07C C S. Li, B. Livshitz, H. N. Bertram, M. Schabes, T. Schrefl, E. Fullerton, and V. Lomakin, Microwave assisted magnetization reversal in composite media, Applied Physics Letters, Vol. 94 (2009) p B. Livshitz, A. Inomata, H. N. Bertram, and V. Lomakin, Semi-analytical approach for analysis of BER in conventional and staggered bit patterned media, IEEE Transactions on Magnetics, (May 2009) 4 pages. 37. D. Van Orden and V. Lomakin, Rapidly convergent representations for 2D and 3D Green s functions for a linear periodic array of dipole sources, IEEE Transactions on Antennas and Propagation, Vol. 57, No. 7 (July 2009) pp A. Mizrahi, K. Ikeda, F. Bonomelli, V. Lomakin, and Y. Fainman, Self alignment and instability of waveguides induced by optical forces, Physical Review A, Vol. 80, No. 4 (2009), p (R) L. Feng, Z. W. Liu, V. Lomakin, and Y. Fainman, Form birefringence metal and its plasmonic anisotropy, Applied Physics Letters, Vol. 96, No. 4 (2010), pp K. Tetz, V. Lomakin, M. Nezhad, L. Pang, Y. Fainman, Polarization weighting of Fano-type transmission through bidimensional metallic gratings, Journal of the Optical Society of America A, Vol. 27, No. 4 (April 2010), pp (from Work in Progress ) 41. M. P. Nezhad, A. Simic, O. Bondarenko, B. Slutsky, A. Mizrahi, L. Feng, V. Lomakin, and Y. Fainman, Room temperature lasing from sub-wavelength metallo-dielectric lasers, Nature Photonics, Vol. 4, (April 2010), pp S. Li, B. Livshitz, and V. Lomakin, Graphics Processing Unit accelerated O(N) micromagnetic solver, IEEE Transactions on Magnetics, Vol. 46, No. 6 (June 2010), pp S. Li, B. Livshitz, and V. Lomakin, Fast evaluation of Helmholtz potential on graphics processing units (GPUs), Journal of Computational Physics, Vol. 229, pp , J. Meng, A. Boag, V. Lomakin, and E. Michielssen, Multilevel Cartesian non-uniform grid time domain algorithm, Journal of Computational Physics, Vol. 229, pp , D. Van Orden, Y. Fainman, and V. Lomakin, Twisted chains of resonant particles: Optical polarization control, waveguidance, and radiation, Optics Letters, Vol. 35, No. 15 (Aug. 2010), pp S. Li, D. Van Orden, and Vitaliy Lomakin, Fast periodic interpolation method for periodic unit cell problems, IEEE Transactions on Antennas and Propagation, Vol. 58, No. 12 (Dec. 2010), pp M. Lubarda, S. Li, B. Livshitz, E. E. Fullerton, and V. Lomakin, "Antiferromagnetically-coupled capped bit patterned media for high-density magnetic recording," Applied Physics Letters, Vol. 98, (2011), p M. Lubarda, S. Li, B. Livshitz, E. E. Fullerton, and V. Lomakin, Reversal in bit patterned media with vertical and lateral exchange, IEEE Transactions on Magnetics, Vol. 47, No. 1 (Jan. 2011), pp , R. Chang, S. Li, M. Lubarda, B. Livshitz, and V. Lomakin, "FastMag: Fast micromagnetic simulator for complex magnetic structures," J. Appl. Phys., Vol. 109, (April 2011), p. 07D

76 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ Q. Ding, A. Mizrahi, Y. Fainman, and V. Lomakin, "Dielectric shielded nanoscale patch laser resonators," Optics Letters, Vol. 36, No. 10 (May 2011), pp L. Feng, A. Mizrahi, S. Zamek, Z. Liu, V. Lomakin, and Y. Fainman, "Metamaterials for enhanced polarization conversion in plasmonic excitation," ACS Nano, Vol. 5, No. 6 (2011), pp D. Van Orden and V. Lomakin, "Fundamental electromagnetic properties of twisted periodic arrays," IEEE Transactions on Antennas and Propagation, Vol. 59, No. 8 (Aug. 2011), pp M. Navarro-Cía, M. Beruette, F. Falcone, M. Sorolla, and V. Lomakin, Negative group delay through subwavelength hole arrays, Physical Review B, Vol. 84, 5 pages. 54. I. Yulaev, M.V. Lubarda, S. Mangin, V. Lomakin, and E.E. Fullerton, Spin-transfer-torque reversal in perpendicular anisotropy spin valves with composite free layers, Applied Physics Letters, Vol. 99, No. 13 (September 2011), pp (30% contribution) 55. D. Van Orden and V. Lomakin, Rapidly convergent representations for periodic Green s function of a linear array in layered media, IEEE Transactions on Antennas and Propagation, Vol. 60, No. 2 (February 2012), pp (100% contribution) 56. M.V. Lubarda, M.A.Escobar, S. Li, R. Chang, E.E. Fullerton, and V. Lomakin, Domain wall motion in magnetically frustrated nanorings, Phys Rev. B, Vol. 85, No. 21 (February 2012), pp (70% contribution) 57. M. Khajavikhan, A. Simic, M. Katz, J.H. Lee, B. Slutsky, A. Mizrahi, V. Lomakin, and Y. Fainman, Thresholdless nanoscale coaxial lasers, Nature, Vol. 482, (February 9, 2012), pp (25% contribution) 58. I. Tudosa, M.V. Lubarda, K.T. Chan, M.A. Escobar, V. Lomakin, and E.E. Fullerton, Thermal stability of patterned Co/Pd nanodot arrays, Applied Physics Letters, Vol. 100, No. 10 (March 9, 2012), p (30% contribution) 59. R. Chang, M.A. Escobar, S. Li, M.V. Lubarda, and V. Lomakin, Accurate evaluation of exchange fields in finite element micromagnetic solvers, Journal of Applied Physics, Vol. 111, No. 7 (March 13, 2012), pp. 07D D (100% contribution) 60. M.A. Escobar, M.V. Lubarda, S. Li, R. Chang, B. Livshitz, and V. Lomakin, Advanced Micromagnetic Analysis of write head dynamics using FastMag, IEEE Transactions on Magnetics, Vol. 48, No. 5 (May 2012), pp (95% contribution) 61. S. Li, R. Chang, A. Boag, and V. Lomakin, Fast Electromagnetic Integral-Equation Solvers on Graphics Processing Units, IEEE Antennas and Propagation Magazine, Vol. 54, No. 5 (October 2012), pp (90% contribution) 62. A. Boag and V. Lomakin, Generalized Equivalence Integral Equations, IEEE Antennas and Wireless Propagation Letters, Vol. 11 (2012), pp (50% contribution) 63. R. Chang and V. Lomakin, Quadrilateral Barycentric Basis Functions for Surface Integral Equations, Accepted to IEEE Transactions of Antennas and Propagation, (June 2013), 13 pages. (100% contribution) 64. J.E. Martin, M.V. Lubarda, V. Lomakin, and P.O. Jubert, Effect of thermal fluctuations on the performance of particulate media, IEEE Transactions on Magnetics, Vol. 49, No. 7 (July 15, 2013), pp (75% contribution) (paper was accepted Jan. 2013) (updated) 65. A. Singh, S. Gupta, M. Kuteifan, M. Lubarda, V. Lomakin, and O. Mryasov, Effect of interlayer exchange coupling parameter on switching time and critical current density in composite free layer, Journal of Applied Physics, v. 115, (January 2014), pp. 17D D Q. Gu, J. S. T. Smalley, M. P. Nezhad, A. Simic, J. H. Lee, M. Katz, O. Bondarenko, B. Slutsky, A. Mizrahi, V. Lomakin and Y. Fainman, Subwavelength semiconductor lasers for dense chip-scale integration, Advances in Optics and Photonics, vol. 6, (March 2014), pp

77 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ Y. Brick, V. Lomakin, and A. Boag, Fast Green s Function Evaluation for Sources and Observers near Smooth Convex Bodies, IEEE Transactions on Antennas and Propagation, vol. 62, no. 6, (June 2014), pp Y. Brick, V. Lomakin, and A. Boag, Fast Direct Solver for Essentially Convex Scatterers Using Multilevel Non-uniform Grids, IEEE Transactions on Antennas and Propagation, vol. 62, no. 8, (August 2014), pp Y. Liu, A. C. Yücel, V. Lomakin, and E. Michielssen, Graphics Processing Unit Implementation of Multilevel Plane-Wave Time-Domain Algorithm, IEEE Antennas and Wireless Propagation Letters, vol. 13, (August 2014.), pp S. Fu, R. Chang, S. Couture, M. Menarini, M. A. Escobar, M. Kuteifan, M. Lubarda, D. Gabay, and V. Lomakin, Micromagnetics on high-performance workstation and mobile computational platforms, Journal of Applied Physics, vol. 117, (April 2015), p. 17E S. Fu, L. Xu, V. Lomakin, A. Torabi, and B. Lengsfield, Modeling Perpendicular Magnetic Multilayered Oxide Media with Discretized Magnetic Layers, IEEE Transactions on Magnetics, vo. 51, (November 2015), p N. Motamedi, S. Karbashi, J. E. Ford, V. Lomakin, Analysis and characterization of high-resolution and high-aspect-ratio imaging fiber bundles, Applied Optics, vol. 54, (November 2015), p N. Motamedi, A. Shlivinski, J. E. Ford, V. Lomakin, Efficient analysis of deep high-index-contrast gratings under arbitrary illumination, Optics Express, vol. 23, (December 2015), pp A. Shlivinski and V. Lomakin, Gaussian-windowed frame based method of moments formulation of surfaceintegral-equation for extended apertures, Journal of Computational Physics, vol. 308, (March 2016), pp J. Sampaio, A. V. Khvalkovskiy, M. Kuteifan, M. Cubukcu, D. Apalkov, V. Lomakin, V. Cros, and N. Reyren, Disruptive effect of Dzyaloshinskii-Moriya interaction on the magnetic memory cell performance Applied Physics Letters, vol. 108, (March 2016), p S. Fu, W. Cui, M. Hu, R. Chang, M. J. Donahue, and V. Lomakin, Finite-Difference Micromagnetic Solvers with Object-Oriented Micromagnetic framework on Graphics Processing Units, IEEE Transactions on Magnetics, vol. 52, (April 2016), p M. Kuteifan, M. V. Lubarda, S. Fu, R. Chang, M. A. Escobar, S. Mangin, E. E. Fullerton, and V. Lomakin, Large exchange-dominated domain wall velocities in antiferromagnetically coupled nanowires, AIP Advances, vol. 6, (April 2016), p Jin-Kyu Byun, Iana Volvach, and Vitaliy Lomakin, "Fast Optimal Design of Micromagnetic Devices Using FastMag and Distributed Evolutionary Algorithm", IEEE Transactions on Magnetics, Vol. 52, No. 9, (September 2016), pp II. Review and Invited Articles III. Books and Book Chapters (All From A.II) 1. S. Li, E. Chang, and V. Lomakin, Fast electromagnetic integral equation solvers on graphics processing units (GPUs), in GPU Computing Gems, W.-M. Hwu, Ed., Elsevier Science, Oct. 2011, Chapter 19, 29 pages.

78 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 IV. Refereed Conference Proceedings (All From A.III) 1. N.N. Kolchigin, V. Lomakin, and S.N. Pivnenko, Remote sensing of a flat surface by an electromagnetic pulsed beam, IEEE AP-S Symposium and URSI Radio Science Meeting, Montreal, Canada, July 13-18, 1997, pp V. Lomakin, B.Z. Steinberg, and E. Heyman, EM analysis in complex laminates: An MRA homogenization approach, IEEE AP-S 2000 International Symposium, Salt Lake City, Utah, July 16-21, 2000, pp V. Lomakin, B.Z. Steinberg, and E. Heyman, EM analysis in complex laminates: The equivalence of the complete and the effective dyadic Green s functions, IEEE AP-S 2000 International Symposium, Salt Lake City, Utah, July 16-21, 2000, pp V. Lomakin, B.Z. Steinberg, and E. Heyman, EM analysis in complex laminates: Source excitation and propagation of effective modes, IEEE AP-S 2000 International Symposium, Salt Lake City, Utah, July 16-21, 2000, pp V. Lomakin, B.Z. Steinberg, and E. Heyman, Analysis of the multi-resolution time domain (MRTD) method via the multi-resolution homogenization (MRH) theory, URSI Trianum International Symposium on Electromagnetic Theory, Victoria, Canada, May, 2001, pp V. Lomakin, B.Z. Steinberg, and E. Heyman, The finite difference multi-resolution time domain (MRTD) in view of the multi-resolution homogenization theory (MRH), Joint International IEEE AP-S and URSI Symposium, Boston, Massachusetts, July 8-13, 2001, pp V. Lomakin, B.Z. Steinberg, and E. Heyman, MRA homogenization under ultra wideband (UWB) conditions and fault interrogation, The XXVIIth General Assembly of the International Union of Radio Science (URSI), Maastricht, The Netherlands, August 17-24, 2002, manuscript # 737, 4 pages. 8. V. Lomakin, B.Z. Steinberg, and E. Heyman, A multi-resolution homogenization (MRH) analysis for the fields near the interface between complex laminates, The XXVIIth General Assembly of the International Union of Radio Science (URSI), Maastricht, The Netherlands, August 17-24, 2002, manuscript # 739, 4 pages. 9. V. Lomakin B.Z. Steinberg, and E. Heyman, Multiresolution homogenization and scattering from the interface of a micro-scale laminates, International Conference on Electromagnetics in Advanced Applications (ICEAA), Turin, Italy, September 8-12, 2003, pp H. Bagci, A. Yilmaz, V. Lomakin, and E. Michielssen, Fast and accurate solution of time domain electric field integral equation for dielectric half space, IEEE AP-S Symposium and North American Radio Science Meeting, Columbus, Ohio, June 22-27, 2003, pp V. Lomakin, N.W. Chen, and E. Michielssen, Enhanced transmission through periodic sub-wavelength hole structures, IEEE AP-S Symposium and North American Radio Science Meeting, Columbus, Ohio, June 22-27, 2003, pp V. Lomakin and E. Michielssen, Efficient calculation of transient fields in multilayered media, IEEE AP- S International Symposium and USNC/URSI National Radio Science Meeting, Monterey, California, June 20-26, 2004, pp S.Q. Li, V. Lomakin, and E. Michielssen, Enhanced transmission through truncated compound periodic arrays of subwavelength holes, IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, Monterey, California, June 20-26, 2004, pp

79 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ M. Beruete, I. Campillo, J.S. Dolado, M. Sorolla, V. Lomakin, and E. Michielssen, Phase response of cut-off metallic hole arrays, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Washington, July 5-9, 2005, pp J. Meng, A. Boag, V. Lomakin, and E. Michielssen, "A Multilevel Cartesian non-uniform grid time domain (ML-CNGTD) method," IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Albuquerque, New Mexico, B. Livshitz, V. Lomakin, and A. Boag, "Adaptive Multilevel Non-Uniform Grid Algorithm for Fast Field Evaluation in Multilayered Media," IEEE AP-S International Symposium, Honolulu, Hawaii, 2007, pp V. Lomakin and B. Livshitz, "Phenomena of radiation and focusing from chains of plasmonic nanoparticles," IEEE AP-S International Symposium, Honolulu, Hawaii, 2007, pp V. Lomakin, B. Livshitz, and A. Boag, "Non-uniform grid algorithms for fast evaluation of electromagnetic fields in layered media," International Symposium on Electromagnetic Theory (EMTS 2007), Ottawa, Canada, July 2007, 3 pages. (Young Scientist Award) 19. V. Lomakin, Y. Fainman, Y. Urzhumov, and G. Shvets, "Negative index metamaterials in the near-ir and visible spectra based on thin metal films," International Symposium on Electromagnetic Theory (EMTS 2007), Ottawa, Canada, July 2007, 3 pages. (invited talk) 20. V. Lomakin, Y. Fainman, Y. Urzhumov, and G. Shvets, "Optical metamaterials based on thin metal films: From negative index of refraction to enhanced transmission and to surface wave guidance," SPIE, San Diego, 2007, 10 pages. (invited talk) 21. V. Lomakin, Periodic gratings in the regime of coupled resonant and Rayleigh Wood anomalies, North American Radio Science Meeting (URSI - CNC/USNC), Ottawa, Canada, 2007, 1 page. 22. B. Livshitz, A. Inomata, H.N. Bertram, and V. Lomakin, Fast precessional reversal in perpendicular composite patterned media, 52nd Magnetism and Magnetic Materials Conference, Tampa, Florida, November 2007, 1 page. 23. H.N. Bertram, M.E. Schabes, V. Lomakin, and B. Livshitz, Nucleation fields in composite medium grains, 52nd Magnetism and Magnetic Materials Conference, Tampa, Florida, November 2007, 1 page. 24. D. Van Orden, Y. Fainman, and V. Lomakin, Optical waves on nano-particle chains coupled with metaldielectric surfaces, Conference on Lasers and Electro-Optics (CLEO/QELS), San Jose, California, May 2008, 2 pages. 25. B. Livshitz, H.N. Bertram, A. Inomata, and V. Lomakin, Precessional magnetization reversal in composite patterned media: Dependence on applied field parameters, IEEE Intermag 2008, Madrid, Spain, May 2008, 2 pages. 26. V. Lomakin, B. Livshitz, S. Li, R. Choi, A. Inomata, and H.N. Bertram, Patterned media for 10 Tbit/in2 utilizing dual-section ledge elements, IEEE Intermag 2008, Madrid, Spain, May 2008, 2 pages. (invited talk) 27. V. Lomakin and D.A. Van Orden, Rapidly convergent spectral representations for periodic Green functions, 2008 International Union of Radio Science (URSI) General Assembly, Chicago, Illinois, August 2008, paper #BP11.7, 4 pages. (Young Scientist Award) 28. A. Mizrahi, V. Lomakin, B.A. Slutsky, M.P. Nezhad, L. Feng, and Y. Fainman, Metal coated subwavelength laser resonators with low threshold gain, FIO, OSA 92nd Annual Meeting, Rochester, NY, October 2008, paper #FTuAA4, 1 page.

80 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ B. Livshitz, A. Boag, N. Bertram, and V. Lomakin, NG algorithm for fast magnetostatic interactions calculation in micromagnetics, 53rd Magnetism and Magnetic Materials Conference, Austin, Texas, November 2008, p S. Li, B. Livshitz, E.E. Fullerton, H.N. Bertram, M. Schabes, and V. Lomakin, Microwave assisted magnetization reversal and multilevel recording in composite media, 53rd Magnetism and Magnetic Materials Conference, Austin, Texas, November 2008, p B. Livshitz, H.N. Bertram, and V. Lomakin, New patterned media recording scheme based on precessional reversal, 53rd Magnetism and Magnetic Materials Conference, Austin, Texas, November 2008, p S. Li, B. Livshitz, E.E. Fullerton, H.N. Bertram, A. Inomata, and V. Lomakin, Bit patterned media with cap layer for high density magnetic recording, 53rd Magnetism and Magnetic Materials Conference, Austin, Texas, November 2008, p B. Livshitz, A. Inomata, H.N. Bertram, and V. Lomakin, Analysis of recording in patterned media (PM) with geometry and material fluctuation, 53rd Magnetism and Magnetic Materials Conference, Austin, Texas, November 2008, p V. Lomakin and D.A. Van Orden, Spectral representations for rapid evaluation of periodic Green s functions, 12th International Conference on Mathematical Methods in Electromagnetic Theory, Odessa, Ukraine, June 29 July 02, 2008, p (invited) 35. V. Lomakin, E.E. Fullerton, S. Li, and B. Livshitz, Capped bit patterned media for high-density magnetic recording, IEEE International Magnetics Conference, Sacramento, CA, May 4-8, 2009, p. BC S. Li, B. Livshitz, and V. Lomakin, Graphics processing unit based multi-level non-uniform grid algorithm for fast evaluation of magnetostatic field, IEEE International Magnetics Conference, Sacramento, CA, May 4-8, 2009, p. BE S. Li, B. Livshitz, H.N. Bertram, E.E. Fullerton, and V. Lomakin, Microwave assisted magnetic reversal and a novel recording system, IEEE International Magnetics Conference, Sacramento, CA, May 4-8, 2009, p. BC B. Livshitz and V. Lomakin, Non-uniform grid algorithm with centroid compensated interpolation for fast evaluation of magnetostatic fields, IEEE International Magnetics Conference, Sacramento, CA, May 4-8, 2009, paper #BE-03, 2 pages. 39. M.P. Nezhad, A. Simic, O. Bondarenko, B.A. Slutsky, A. Mizrahi, L. Feng, V. Lomakin, and Y. Fainman, Room temperature lasing from subwavelength metal-insulator-semiconductor structures, Conference on Lasers and Electro-Optics/International Quantum Electronics Conference, OSA Technical Digest (CD), Baltimore, Maryland, May 2009, 2 pages (p. CMD2). 40. M.P. Nezhad, A. Simic, O. Bondarenko, B.A. Slutsky, A. Mizrahi, L. Feng, V. Lomakin, and Y. Fainman, Room temperature lasing from subwavelength metal-insulator-semiconductor structures, Conference on Lasers and Electro-Optics (CLEO/IQEC), Baltimore, Maryland, June 2009, paper #CMD2, 2 pages. 41. L. Feng, D.A. Van Orden, M. Abashin, V. Lomakin, and Y. Fainman, Nanoscale optical field localization by resonantly focused plasmons, Conference on Lasers and Electro-Optics (CLEO/IQEC), Baltimore, Maryland, June 2009, paper #IMD6, 2 pages. 42. S. Li, B. Livshitz, and V. Lomakin, Graphics processing unit based multi-level non-uniform grid algorithm for fast evaluation, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Charleston, SC, June 1-5, 2009, paper #IF313.1, 4 pages.

81 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ D.A. Van Orden and V. Lomakin, Rapidly convergent Green s function representation for a linear periodic array near layered media, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Charleston, SC, June 1-5, 2009, paper #328.5, 4 pages. 44. M.P. Nezhad, A. Simic, O. Bondarenko, B. Slutsky, A. Mizrahi, L. Feng, V. Lomakin, and Y. Fainman, Room temperature operation of subwavelength metallo-dielectric lasers, Integrated Photonics and Nanophotonics Research and Applications, OSA Technical Digest (CD), Honolulu, Hawaii, July 17, 2009, 3 pages (p. JTuA1). 45. M.V. Lubarda, S. Li, B. Livshitz, E.E. Fullerton and V. Lomakin, Composite Capped Bit Patterned Media for Ultra-high Density Recording, 11th Joint MMM meeting and International Magnetics Conference, Washington, DC, January 18-22, 2010, 1 page. 46. D.A. Van Orden, Y. Fainman, and V. Lomakin, Nanoparticle chains coupled with surfaces and twisted chains as optical waveguides and antennas, the 4th European Conference on Antennas and Propagation, Barcelona, Spain, April 12-16, 2010, 4 pages. (invited) 47. L. Feng, Z. Liu, V. Lomakin, and Y. Fainman, Form birefringent metal and its plasmonic anisotropy, CLEO/QELS 2010, San Jose, CA, May 2010, 2 pages. 48. S. Li and V. Lomakin, Fast interpolation method for field evaluation in a periodic unit cell, IEEE International Symposium on Antennas and Propagation and CNC/USNC/URSI National Radio Science Meeting, Toronto, Ontario, Canada, July 11-17, 2010, 4 pages. 49. D.A. Van Orden and V. Lomakin, Twisted arrays of resonant particles, IEEE International Symposium on Antennas and Propagation and CNC/USNC/URSI National Radio Science Meeting, Toronto, Ontario, Canada, July 11-17, 2010, 4 pages. 50. S. Li, R. Chang, D.A. Van Orden, B. Livshitz, and V. Lomakin, Fast interpolation based integral equation solvers on GPUs, IEEE International Symposium on Antennas and Propagation and CNC/USNC/URSI National Radio Science Meeting, Toronto, Ontario, Canada, July 11-17, 2010, 1 page. (invited) 51. S. Li, D.A. Van Orden, and V. Lomakin, "Fast interpolation method for periodic unit cell problems," EMTS 2010 URSI International Symposium on Electromagnetic Theory, Berlin, Germany, August 16-19, 2010, 3 pages. (invited) 52. M. Lubarda, S. Li, B. Livshitz, E.E. Fullerton, and V. Lomakin, Reversal in bit patterned media with vertical and lateral exchange, The Magnetic Recording Conference, San Diego, CA, August 16-18, 2010, 2 pages. (invited) 53. M.V. Lubarda, S. Li, B. Livshitz, E.E. Fullerton, and V. Lomakin, "Engineering Multilayer Bit Patterned Media for Enhanced Storage and Recording Performance," 55th Annual Conference on Magnetism and Magnetic Materials, Atlanta, Georgia, November 11-18, 2010, 1 page. 54. S. Li, R. Chang, M. Lubarda, B. Livshitz, J. Van Ek, and V. Lomakin, "Fast micromagnetic solvers for large-scale simulations," 55th Annual Conference on Magnetism and Magnetic Materials, Atlanta, Georgia, November 11-18, 2010, 1 page. (invited) 55. R. Chang and V. Lomakin, Potential-based volume integral equations, 2011 IEEE International Symposium on Antennas and Propagation (APSURSI), Spokane, WA, July 3-8, 2011, p M. Beruete, M. Navarro-Cía, V. Lomakin, S.A. Kuznetsov, and M. Sorolla, Anomalous Extraordinary Transmission: Diffraction and Equivalent Circuit Models, 2011 IEEE International Symposium on Antennas and Propagation, Spokane, WA, July 3-8, 2011, 1 page. 57. Q. Ding, A. Mizrahi, Y. Fainman, and V. Lomakin, Dielectric Shielded Subwavelength Nanopatch Laser Resonators, 2011 IEEE International Symposium on Antennas and Propagation, Spokane, WA, July 3-8, 2011, 1 page.

82 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ S. Li, R. Chang, D.A. van Orden, and V. Lomakin, FFT and Interpolation Accelerated Integral Equation Solvers on GPUs, 2011 IEEE International Symposium on Antennas and Propagation, Spokane, WA, July 3-8, 2011, 1 page. 59. S. Li, R. Chang, D.A. van Orden, A. Boag, and V. Lomakin, Fast Integral Equation Solvers for Periodic and Layered Structures, 2011 IEEE International Symposium on Antennas and Propagation, Spokane, WA, July 3-8, 2011, 1 page. 60. M.V. Lubarda, S. Li, R. Chang, E.E.Fullerton, and V. Lomakin, "Domain wall motion in magnetically frustrated nanorings," 56 th Annual Conference on Magnetism and Magnetic Materials, Scottsdale, AZ, October 30 - November 3, 2011, p. 83. (From B.II.A.1) 61. M.V. Lubarda, M.A. Escobar, R. Chang, S. Li, J. Van Ek, and V. Lomakin, High-performance Voronoi tessellation-based micromagnetic simulator and the analysis of granular media recording, 56 th Annual Conference on Magnetism and Magnetic Materials, Scottsdale, AZ, October 30 - November 3, 2011, p (From B.II.A.2) 62. V. Lomakin, Q. Ding, M.A. Escobar, M.V. Lubarda, Y. Fainman, E.E. Fullerton, S. Li, and R. Chang, Design of recording system for heat assisted magnetic recording, 56 th Annual Conference on Magnetism and Magnetic Materials, Scottsdale, AZ, October 30 - November 3, 2011, p (From B.II.A.3) 63. N. Eibagi, J. Kan, M. Lubarda, M. Pechan, V. Lomakin, and E.E.Fullerton, "Composite structures for bit patterned media," 56 th Annual Conference on Magnetism and Magnetic Materials, Scottsdale, AZ, October 30 - November 3, 2011, p (From B.II.A.4) 64. R. Chang, S. Li, M.V. Lubarda, M.A. Escobar, and V. Lomakin, Accurate evaluation of exchange fields in finite element micromagnetic solvers, 56 th Annual Conference on Magnetism and Magnetic Materials, Scottsdale, AZ, October 30 - November 3, 2011, p (From B.II.A.5) 65. S. Li, R. Chang, M.A. Escobar, M.V. Lubarda, and V. Lomakin, "Ultra high-performance micromagnetics: Fast methods and massive parallelization," 56 th Annual Conference on Magnetism and Magnetic Materials, Scottsdale, AZ, October 30 - November 3, 2011, p (From B.II.A.6) 66. I. Yulaev, M. Lubarda, S. Mangin, V. Lomakin, and E.E. Fullerton, "Spin-transfer-torque reversal in perpendicular anisotropy spin valves with composite free layers," 56 th Annual Conference on Magnetism and Magnetic Materials, Scottsdale, AZ, October 30 - November 3, 2011, p (From B.II.A.7) 67. A. Boag and V. Lomakin, Generalized Equivalence Integral Equations, 6th European Conference on Antennas and Propagation (EUCAP), Prague, March 26-30, 2012, p (invited) (From A.III.60) 68. S. Li and V. Lomakin, Fast iterative electromagnetic integral equation solvers on GPUs, International Review of Progress in Applied Computational Electromagnetics (ACES), Columbus, OH, April 10-14, 2012, 6 pages. (From A.III.61) 69. J.E. Martin, M. Lubarda, S. Li, M. Escobar, R. Chang, P. Jubert, and V. Lomakin, High-performance micro magnetic simulator for particulate magnetic media, International Magnetics Conference (Intermag), Vancouver, Canada, May 7-11, 2012, 2 pages. (From A.III.62) 70. S. Li and V. Lomakin, Fast micromagnetics on massively parallel computing systems, International Magnetics Conference (Intermag), Vancouver, Canada, May 7-11, 2012, 2 pages. (From A.III.63) 71. Q. Ding, M. Escobar, R. Chang, M. Lubarda, S. Li, and V. Lomakin, Electromagnetic Design of Heat- Assisted Magnetic Recording System, IEEE Antennas and Propagation Symposium and USNC-URSI National Radio Science Meeting, Chicago, Illinois, July 8-14, 2012, 2 pages. (From A.III.64)

83 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ A.R. Rodriguez, P. Hansen, L. Koyama, Q. Ding, and V. Lomakin, LF Antenna Optimization over High Impedance Ground Plane, IEEE Antennas and Propagation Symposium and USNC-URSI National Radio Science Meeting, Chicago, Illinois, July 8-14, 2012, 2 pages. (From A.III.65) 73. S. Li, R. Chang, A. Boag, and V. Lomakin, Massively Parallel FFT and Interpolation Based Methods on GPU and CPU Systems, IEEE Antennas and Propagation Symposium and USNC-URSI National Radio Science Meeting, Chicago, Illinois, July 8-14, 2012, 1 page. (From A.III.66) 74. R. Chang, E. Michielssen, and V. Lomakin, Coupling Electromagnetics and Micromagnetics, 2012 Antennas and Propagation Society International Symposium (APSURSI), Chicago, Illinois, July 8-14, 2012, 2 pages. (From A.III.67) 75. R. Chang, M. Lubarda, M. Escobar, S. Li, and V. Lomakin, Eddy current effects in micromagnetic systems, Joint European Magnetic Symposia, Parma, Italy, September 9-14, 2012, 1 page. (invited) (From A.III.68) 76. S. Fu, S. Li, R. Chang, and V. Lomakin, Graphics Processing Units Implementation for Fast Algorithms Solving Electromagnetic Integral Equations, International Review of Progress in Applied Computational Electromagnetics (ACES), Monterey, CA, 2013, 6 pages. (invited) (From A.III.69) 77. R. Chang and V. Lomakin, Barycentric quadrilateral basis on triangular and quadrilateral meshes for stable surface integral equations, International Review of Progress in Applied Computational Electromagnetics (ACES), Monterey, CA, 2013, 6 pages. (invited) (From A.III.70) 78. S. Fu, S. Li, R. Chang, M. Donahue, and V. Lomakin, Finite Difference Solvers on Graphics Processing Units (GPUs), 12 th Joint MMM Intermag Conference, Chicago, Illinois, January 14-18, 2013, p (From B.II.A.8) 79. R. Chang, M.A. Escobar, S. Li, S. Fu, M.V. Lubarda, and V. Lomakin, Coupling Micromagnetics with Electromagnetics to account for Eddy currents, 12 th Joint MMM Intermag Conference, Chicago, Illinois, January 14-18, 2013, p (From B.II.A.9) 80. J.E. Martin, M.V. Lubarda, V. Lomakin, and P. Jubert, Effect of thermal fluctuations on the performance of particulate media, 12 th Joint MMM Intermag Conference, Chicago, Illinois, January 14-18, 2013, p (From B.II.A.10) 81. M.V. Lubarda, M. Kuteifan, M.A. Escobar, R. Chang, D. Gabay, M. Hu, S. Fu, S. Li, E.E. Fullerton, and V. Lomakin, Micromagnetic Study of Domain Wall Motion in Polycrystalline Nanowires with Materials Distributions, 12 th Joint MMM Intermag Conference, Chicago, Illinois, January 14-18, 2013, p (From B.II.A.11) 82. M.A. Escobar, O. Mryasov, E.E. Fullerton, A. Singh, M.V. Lubarda, R. Chang, and V. Lomakin, Accelerated NEB simulations of energy barrier for MRAM free layer: interface vs. bulk anisotropy cases, 12 th Joint MMM Intermag Conference, Chicago, Illinois, January 14-18, 2013, p (From B.II.A.12) 83. D. Gabay, Q. Ding, M. Lubarda, M. Escobar, and V. Lomakin, System modeling of energy assisted bit patterned media magnetic recording, 12 th Joint MMM Intermag Conference, Chicago, Illinois, January 14-18, 2013, p. 16. (invited) (From B.II.A.13) 84. I. Volvach, M. Escobar, M. Lubarda, R. Chang, S. Fu, and V. Lomakin, Synchronization of chains of spin transfer torque oscillators, International French-US workshop: Toward low power spintronic devices, p. 36, San Diego, California, July 8-13, (invited)

84 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ S. Fu, R. Chang, A. Boag, and V. Lomakin. "Fast Integral Equation Solvers on multi-gpu Computer Systems." International Conference on Electromagnetics in Advanced Applications (ICEAA), September 2013, Torino, Italy, pp (invited) 86. I. Volvach, M. Escobar, M. Lubarda, and V. Lomakin, Synchronization in chains of spin transfer torque oscillators, 58th Annual Conference on Magnetism and Magnetic Materials, Denver, Colorado, November 4-8, 2013, p S. Couture, M.A. Escobar, E.E. Fullerton, V. Lomakin, "Micromagnetic Study of Soft Magnetic Properties of Granular Ferromagnetic Materials", 58th Conference on Magnetism and Magnetic Materials, Denver, Colorado, November 4-8, 2013, p. BQ S. Fu, R. Chang, S. Couture, M. Menarini, M. Escobar, M. Kuteifan, M. Lubarda, D. Gabay, and V. Lomakin. "Explore Computational Power of Mobile Platforms in Micromagnetic Simulations." GPU Technology Conference 2014, San Jose, CA, March 24-27, 2014, p R. Chang, S. Fu, M. Lubarda, S. Li, M. Menarini, M. Escobar, M. Kuteifan, D. Gabay, S. Couture, M. Donahue, and V. Lomakin, High-performance micromagnetics for magnetic recording and memory applications, IEEE International Conference on Magnetics, Dresden, Germany, May 4-8, M. Menarini, M. Lubarda, B. Livshitz, S. Mangin, E. Fullerton, V. Lomakin, Modeling high-temperature demagnetization and recording in FePt granular media IEEE International Magnetics Conference, May 4-8, 2014, Dresden, Germany, p. ES V. Lomakin, R. Chang, S. Fu, M. Menarini, M. Lubarda, and S. Couture, V. Lomakin, Highperformance micromagnetics for magnetic recording and memory applications, IEEE International Magnetics Conference, May 4-8, 2014, Dresden, Germany, p. ES-01. (invited) 92. A. Shlivinski and V. Lomakin, Integral equation formulations for problems of coupling into an array of fibers, International Workshop on Finite Elements for Microwave Engineering, May 14-17, 2014, Chengdu, China. (invited) 93. R. Chang, S. Fu, Shaojing Li, A. Boag, and V. Lomakin, Electromagnetic integral equation and micromagnetic solvers on GPUs, International Workshop on Finite Elements for Microwave Engineering, May 14-17, 2014, Chengdu, China. (invited) 94. A. Shlivinski and V. Lomakin, Gaussian-windowed frame based method of moments formulation of surface integral equation for extended apertures IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, Memphis, Tennessee, July 6-11, 2014, p Y. Brick, A. Sharshevsky, V. Lomakin, and A. Boag, Fast Direct Solvers Based on Generalized Surface Integral Formulations for Essentially Convex Scattering Problems, IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, Memphis, Tennessee, July 6-11, 2014, p R. Chang, V. Lomakin, "A method for identifying global loop basis functions for surface integral equations", IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, Memphis, Tennessee, July 6-11, 2014, p (best paper finalist) 97. R. Chang, S. Fu, M. Lubarda, M. Menarini, and V. Lomakin, Numerical modeling of heat assisted magnetic recording system, IEEE International Symposium on Antennas and Propagation and USNC- URSI Radio Science Meeting, Memphis, Tennessee, July 6-11, 2014, p. 293.

85 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ S. Fu and V. Lomakin, "Stream processing approach for computational electromagnetics on graphics processing units," IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, Memphis, TN, July 6-11, 2014, p S. Couture, E.E. Fullerton, V. Lomakin, "Micromagnetic modeling of high-frequency magnetic materials", IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, Memphis, Tennessee, July 6-11, M. Menarini, M. Lubarda, R. Chang, S. Fu, S. Mangin, E. Fullerton, L. Sham, and V. Lomakin, Models and simulation of all-optical switching in granular FePt media, Magnetic single nano-object workshop and school, Nancy, France, September 8-11, (invited) 101. M. Kuteifan, M. Lubarda, S. Fu, R. Chang, M. Escobar, S. Mangin, E. Fullerton, and V. Lomakin, Domain wall motion in antiferromagnetically coupled nanowires, 59th Conference on Magnetism and Magnetic Materials, Honolulu, Hawaii, November 3-7, 2014, p. DB S. Couture, S. Fu, E.E. Fullerton, V. Lomakin, "Micromagnetic Simulations of Soft Nano-Granular Magnetic Films", 59th Conference on Magnetism and Magnetic Materials, Honolulu, Hawaii, November 3-7, 2014, p. CH M. Menarini, E.E. Fullerton, L.J. Sham, S. Mangin, S. Fu and D. Gabay, and V. Lomakin, Modeling of All Optical Switching by circular polarized laser pulses in granular FePt media 59th Conference on Magnetism and Magnetic Materials, Honolulu, Hawaii, November 3-7, 2014, p. AD M. Kuteifan, M.V. Lubarda, S. Fu, R. Chang, M.A. Escobar, S. Mangin, E.E. Fullerton and V. Lomakin, Ferromagnetically and antiferromagnetically coupled nanowire multilayers with ultra-high domain wall velocities 59th Conference on Magnetism and Magnetic Materials, Honolulu, Hawaii, November 3-7, 2014, p. GB V. Lomakin, Computational tools for magnetization dynamics in nanomagnetic systems, CECAM: High throughput material discovery: Perspectives and challenges in theory and experiment, February 3-6, 2015, Tel Aviv, Israel. (invited) 106. M. Menarini, Lu Sham, and Vitaliy Lomakin, Models of all-optical switching in nanogranular magnetic films, Fundamental and Applied NanoElectroMagnetics, Minsk, Belarus, May , pp (invited) 107. R. Chang, S. Couture, S. Fu, and V. Lomakin, Coupled Micromagnetic and Electromagnetic solvers for modeling non-linear Eddy current effects in nanomagnetic systems, 2015 International Workshop on EM Theory, Modeling and Simulations, June 3-5, 2015, Chengdu, China. (invited) 108. S. Couture, E.E. Fullerton, and V. Lomakin, "Properties of High-Frequency Granular Magnetic Materials", APS - URSI Conference, Vancouver, Canada, July 19-24, 2015, p R. Chang, S. Fu, S. Li, A. Boag, and V. Lomakin, Electromagnetic and micromagnetic solvers on GPUs, IEEE International conference on Microwaves, Communications, Antennas, and Electronic Systems (IEEE COMCAS 2015), Tel Aviv, Israel, November 2-4, (invited) 110. S. Couture, S. Fu, E.E. Fullerton, V. Lomakin, "Statistical Considerations in Micromagnetic Simulations of Soft Nano-Granular Magnetic Films", 13th Joint MMM - Intermag Conference, San Diego, California, January 11-15, 2016, p. AD M. Kuteifan, C.-H. Lambert, M.V. Lubarda, E. E. Fullerton, V. Lomakin and S. Mangin, Dynamics of domain wall oscillators using a spring magnet, 13th Joint MMM-Intermag Conference, San Diego, CA, January 11-15, 2016, p. BB-05.

86 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ S. Fu, V. Lomakin, A. Torabi, B. Lengsfield, "Implicit Time Stepping for Magnetic Multilayered Oxide Media Simulation under Thermal Fields," 13th Joint MMM Intermag Conference, San Diego, California, January 11-15, I. Volvach, M. V. Lubarda and V. Lomakin, SPICE modeling coupled with LLG equation, 13th Joint MMM Intermag Conference, San Diego, California, January 11-15, 2016, p S. A. Montoya; S. Couture; J. Chess; J. C. Lee; B. McMorran; S. Roy; P. Fischer; V. Lomakin, and E. E. Fullerton, Resonant Properties of a Skyrmionic RE-TM Ferrimagnet with Weak Perpendicular Magnetic Anisotropy, 13th Joint MMM Intermag Conference, San Diego, California, January 11-15, 2016, p. AC C. H. Lambert; M. Kuteifan; M. V. Lubarda; E. E. Fullerton; V. Lomakin; and S. Mangin Current induced configurations in composite spring magnet 13th Joint MMM Intermag Conference, San Diego, California, January 11-15, 2016, p. AT-14. B. OTHER WORK This section should include other published or creative works that you wish to list to demonstrate scholarly activity. Materials associated with items in this section need not be submitted with the file. If you believe that a work is particularly important, please discuss it in your personal statement. Describe the activity, product, or outcomes and include metrics to demonstrate impact, value, or innovative qualities. The department may comment on work in this section as a basis for advancement. I. Other Conference Proceedings II. Abstracts a. Abstracts of Non-refereed Conference Proceedings 1. V. Lomakin, B. Z. Steinberg, and E. Heyman, EM analysis in complex laminates: source excitation and effective modes, Progress in Electromagnetics Research Symposium, Cambridge, Massachusetts, July V. Lomakin, B. Z. Steinberg, and E. Heyman, EM analysis in complex laminates: the equivalence of the complete and the effective dyadic Green's function, Progress in Electromagnetics Research Symposium, Cambridge, Massachusetts, July V. Lomakin, B. Z. Steinberg, and E. Heyman, EM analysis in complex laminates: an MRA homogenization approach, Progress in Electromagnetics Research Symposium, Cambridge, Massachusetts, July B. Z. Steinberg, E. Heyman, and V. Lomakin, A multiresolution based homogenization with application to propagation in complex environments, Progress in Electromagnetics Research Symposium, Cambridge, Massachusetts, July A. Boag, V. Lomakin, U. Heyman, and E. Michielssen, Fast evaluation of time domain fields by domain decomposition and non-uniform spherical grid interpolation, URSI Radio Science Meeting, San Antonio, Texas, June V. Lomakin, N.W. Chen, and E. Michielssen, Enhanced transmission through periodic array of subwavelength holes on top of a dielectric slab, Progress in Electromagnetics Research Symposium, Honolulu, Hawaii, October 2003.

87 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 7. V. Lomakin, S. Q. Li, and E. Michielssen, Enhanced transmission of transient pulses through plates perforated by subwavelength holes, IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, Monterey, California, June V. Lomakin, S. Q. Li, and E. Michielssen, Enhanced transmission through coaxial apertures perforated in thick metallic films, IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, Monterey, California, June V. Lomakin and E. Michielssen, Manipulation of stop-band gaps of periodically perforated metal plates, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Washington, July V. Lomakin, M. Lu, E. Michielssen, M. Beruete, I. Campillo, J. S. Dolado, and M. Sorolla, Phenomena of wave guidance on chains of apertures in a metal plate, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Washington, July V. Lomakin and A. Boag, A non-uniform grid algorithm for rapid evaluation of fields radiated in layered media, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Albuquerque, New Mexico, B. Livshitz, V. Lomakin, and N. Bertram, Magnetization reversal in patterned media, 10 th Joint MMM/Intermag Conference, Baltimore, Maryland, G. Shvets, Y. Urzhumov, V. Lomakin, M. Davanco, and S. Forest, Negative index materials based on plasmonic and polaritonic components, SPIE, San Diego, California, August 2007 (invited talk). 14. V. Lomakin and D. A. Van Orden, Modified cavity model for nano-resonators, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, San Diego, California, July D. A. Van Orden, Y. Fainman, and V. Lomakin, Focused radiation from leaky wave structures, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, San Diego, California, July V. Lomakin and E. Michielssen, Phenomena of microwave enhanced transmission through arrays of subwavelength holes, International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, Pamplona, Spain, September 2008 (invited). 17. D. A. Van Orden and V. Lomakin, Rapidly convergent representations for 3D Green s functions for a linear periodic array in free space and near layered media, 2009 Annual Review of Progress in Applied Computational Electromagnetics, Monterey, CA, March 8-12, 2009 (invited). 18. V. Lomakin and D. A. Van Orden, Electromagnetic waves on linear nano-particle arrays coupled with surfaces, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Charleston, SC, June 1-5, B. Livshitz, D. A. Van Orden, and V. Lomakin, Fast evaluation of fields radiated by a large source distribution in a periodic unit cell, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, Charleston, SC, June 1-5, L. Feng, V. Lomakin, and Y. Fainman, "Optical field localizations by surface plasmon polaritons," International Conference on Organic Photonics and Electronics 2009/The 11th international Conference on Organic Nonlinear Optics, Beijing, China, Sept (invited) 21. S. Li, B Livshitz, and V. Lomakin, Fast Evaluation of Helmholtz Potential on Graphics Processing Units (GPUs), NVIDIA Research Summit, San Jose, CA, Sep 30 - Oct 2, 2009.

88 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/ S. Li, M. Lubarda, R. Chang, B. Livshitz, and V. Lomakin, Fast micromagnetic solvers and analysis of magnetic recording systems, The 10th International Workshop on Finite Elements for Microwave Engineering, New England, Oct 12-14, 2010 (invited). 23. Li, B. Livshitz, and V. Lomakin, Graphics processing unit based multi-level non-uniform grid method for fast evaluation of magnetostatic fields, The 20th International Conference on Magnetic Recording Heads and Systems, Tuscaloosa, Alabama, Oct 5-7, L. Feng, A. Mizrahi, Z. W. Liu, V. Lomakin and Y. Fainman, Experimental demonstration of TE-excited surface plasmon polariton wave, APS March Meeting 2010, Portland, OR, p. #Z30.003, March 2010, 2 pages. 25. M.A. Escobar and V. Lomakin, Jacobian-enhanced nudged elastic band solver for micromagnetics, International Magnetics Conference (Intermag), Vancouver, Canada, May 7-11, Y. Liu, A.C. Yucel, V. Lomakin, and E. Michielssen, A Scalable Parallel Implementation of the Plane Wave Time Domain Algorithm on Graphics Processing Unit-Augmented Clusters, IEEE Antennas and Propagation Symposium and USNC-URSI National Radio Science Meeting, Chicago, Illinois, July 8-14, III. Additional Products of Major Research a. Patents/Patent Licenses/Copyright (All From A.IV) 1. Apparatus, system and method for magnetic recording. United States Patent No. 8,228,636, V. Lomakin, B. Livshitz, R. Choi, S. Li, and A. Inomata, July 24, (From B.III.b.2) 2. High-performance library for computational physics transformation on GPUs, UCSD Copyright (PREVIOUSLY OMITTED) 3. High-performance general-purpose library for micromagnetic and electromagnetic effective field computations, UCSD Copyright (PREVIOUSLY OMITTED) 4. Solver and user interface for solving the Landau-Lifshitz-Gilbert like equations of micromagnetics, UCSD Copyright (PREVIOUSLY OMITTED) 5. High-performance library for computing energy barriers in micromagnetic systems, UCSD Copyright (PREVIOUSLY OMITTED) 6. Library for computing effective fields in granular magnetic media, UCSD Copyright (PREVIOUSLY OMITTED) 7. High-performance library on single- and multi-gpu systems for computing superposition summations and sparse matrix-vector multiplications, UCSD Copyright Library for solving ordinary differential equations of micromagnetics, UCSD Copyright Library for computing differential operators for evaluating effective fields in micromagnetics, UCSD Copyright Library for computing the magnetization dynamics in granular magnetic structures, UCSD Copyright b. Technology transfer (creative work in software dissemination): 1. FastMag: Fast Micromagnetic Simulator Framework, 2015, 2. OOMMF on GPUs: Object Oriented Micromagnetic Framework on Graphics Processing Units, 2015,

89 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 IV. Popular Works a. Other Presentations/Works (All From B.III) aa. Invited Presentations: 1. Invited presentation, CMRR Research Review, May 4, Invited presentation, CMRR Patterned Media Advisory Panel Meeting, March 10, Invited presentation, CMRR Research Review, November, Invited presentation, CMRR Research Review, May, Invited presentation, CMRR Research Review, November, Invited presentation, CMRR Research Review, May, Invited presentation, CMRR Research Review, November, Invited presentation, CMRR Research Review, May, bb. UCSD Invention Disclosures: 1. Magnetic recording system and writing method for fast precessional switching in composite elements. disclosure submitted, UCSD Docket No. SD , B. Livshitz, A. Inomata, July Medium, apparatus, and method for high density magnetic recording. disclosure submitted, UCSD Docket No. SD , B. Livshitz, A. Inomata, R. Choi, November [in utility application stage (#12/261,824)]. 3. Low threshold gain metal coated laser resonators. disclosure submitted, UCSD Docket No. SD , Y. Fainman, A. Mizrahi, B.A. Slutsky, M.P. Nezhad, L. Feng, and A. Simic, June Nanoscale optical field localization by resonantly focused plasmons. disclosure submitted, UCSD Docket No. SD , L. Feng, D. Van Orden, M. Abashin, and Y. Fainman, July 2008.

90 Review Period materials cover: From 7/1/13 To 06/30/16 Current Review Eff: 7/1/17 C. WORK IN PROGRESS This section is optional and should include only items for which there is actual material that will be submitted with the file for review. This section is intended primarily for disciplines in which completion of scholarly work normally occurs over a lengthy period of time, and in which evidence of progress on a project is considered crucial for assessing a candidate s accomplishments. Such evidence might include chapters of a major book or documentation of progress on a major work of art. This section is particularly important for appraisals of assistant professors. For other actions, use of the Work in Progress section is discouraged. When an item is moved from Section C to either Section A or B, it should be annotated accordingly (e.g., from Work in Progress ). Work may also be removed from Section C if it has been abandoned and is no longer in progress, provided that it has been listed in this section for two consecutive review cycles. (It is listed as in progress at one review, as abandoned at the next, and is removed at the third). Although a horizontal line should be used to indicate new items added, the items listed and the numbering scheme may be altered at each review, if necessary, and should be annotated accordingly. PUBLICATION LINK: I have provided the information contained in the Biography/Bibliography packet or have reviewed it for accuracy. Signature Date

91 UCSD ACADEMIC BIOGRAPHY/BIBLIOGRAPHY FORM Name: Last, First, Middle Liu, Zhaowei Department ECE Title(s) Associate Professor Section I: Employment History and Education Previous Applicable Employment Please show a full account of your time from the date of your first academic (or otherwise relevant) employment up to the present, including any periods when you may not have been employed. Indicate part time appointments. Show salary or approximate annual earnings in all cases. Please include all previous University of California employment. You may provide supplementary information if necessary. Institution, firm or Period of employment organization of From: To: employment Location Rank, title, or position 07/01/14-present UCSD La Jolla, CA Associate Professor 07/01/08-06/30/14 07/01/06-06/31/08 UCSD UC Berkeley La Jolla, CA Berkeley. CA Assistant Professor Postdoc 09/20/01-06/30/06 UCLA Los Angeles, CA Research Assistant Education School, college, university, or hospital (internship, residency, or fellowship) UCLA Nanjing University Nanjing University Dates of attendance 09/20/ /01/ /01/1994 Location Los Angeles, CA Nanjing, China Nanjing, China Major subject or field MEMS/ Nanotechnology Physics Physics Degrees or certificates Ph. D..M. S. B. S. Date received 06/18/06 07/01/01 07/01/98 Please indicate areas of sub-specialization or board certification, if any. Also include a list of special licenses or permits and the dates received. Section II: Professional Data Provide a list of your activities, with dates of award or service, in each of the following eight categories. (a) University Service (Include service at the departmental, college, Academic Senate, campus-wide, and system-wide levels.) Academic Senate Representative (alt.), , Department colloquium organizer in photonics direction, Graduate affair committee at ECE, MS Exam committee at ECE, , Department colloquium organizer in photonics direction, , Department committee on the new Medical Devices and Systems program, Committee member for Medical Devices and Systems (MDS) at ECE, Department graduate admission committee at ECE, ECE25/35 course director, Graduate admission committee for Material Science Program, Executive committee for the Material Science Program, (b) Memberships (Include scholarly societies, professional boards, civic organizations, etc.)

92 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/2016 SPIE, OSA, IEEE (senior), MRS (c) Honors and Awards (Include the dates they were received.) Governmental Fellowship, Nanjing University, , Motorola Fellowship, Motorola Corp Dean s Fellowship, University of California at Los Angeles, 2001 CST University Publication Award, Computer Simulation Technology, 2006 Discover magazine s list of top 100 science stories (58th), 2007 Top 10 scientific discoveries of 2008 by Time magazine, 2008 Discover magazine s list of top 100 science stories (7th), 2008 Who s Who in America, 2010 edition, 2009 SME Outstanding Young Manufacturing Engineer Award, 2010 Hellman Fellowship Awards, 2010 Kavli Fellow, National Academy of Sciences, 2010 IEEE senior member, 2012 ONR Young Investigator Award, 2013 DARPA Young Faculty Award, 2013 Invited Participant, National Academy of Engineering Symposium, Frontiers of Engineering, 2014 (d) Contracts and Grants Please provide the following information for current contracts and grants: Title Plasmonic metamaterials for MIR light control-theoretical design Granting agency Northrop Grumman Amount of total award (include indirect costs) $60,000 Time period of contract/grant 1/1/09-4/30/09 Role (e.g. PI, co-investigator, project leader, etc.) List co-pis/corresponding share of total award (total must = 100%) PI (100%) High-speed Plasmonic Structured Illumination Microscopy NSF $350,000 4/1/10-3/31/13 PI (100%) REU supplement NSF $6,000 4/1/10-3/31/13 PI (100%) Plasmonic metamaterials for MIR light control sample fabrication and characterizations DARPA /Northrop Grumman $280,000 5/1/10-8/31/11 PI (100%) Plasmonics enabled super phase contrast optical microscopy Hellman Foundation $37,000 7/1/10-12/30/11 PI (100%) Los cost lab-on-chip (LOC) sensor platform CalIt2 $75,000 6/15/11-6/15/11 Co-PI (Liu: 50%) PI: Deli Wang SNM: Continuous and scalable nanomanufacturing NSF $1,300,000 7/15/11-6/30/15 Co-PI (Liu: 27.4%); Shu Chien; Michael Heller

93 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/2016 for 3D functional biomedical devices PI: Shaochen Chen Low cost high performance nanostructured spectrally selective coating DOE $1,000,000 8/1/12-7/31/14 Co-PI (Liu: 33.3%); Renkun Chen, PI: Sungho Jin Optical nanoscope for imaging beyond diffraction limit Moore Foundation /Berkeley $6,000,000 8/17/12-8/31/15 Co-PI (Liu: 20%); Evgenii Narimanov, John Pendry PI: Xiang Zhang High performance selective coating for solar thermal applications UCOP $125,000 9/1/12-10/31/13 Co-PI (Liu: 33.3%); Renkun Chen; PI: Sungho Jin Quantum-structure enabled thermal energy harvester for self-powered electronics CalIt2 $50,000 10/1/12-9/30/13 Co-PI (Liu: 50%) PI: Renkun Chen Nanocomposite based thermoelectric CalIt2/I3 $50,000 8/1/13-7/31/14 PI (Liu: 50%) Co-PI: Renkun Chen Ultrafast blue and green LEDs for underwater optical wireless communications ONR $510,000 7/1/13-6/30/16 PI (100%) High-speed nanophotonic LEDs at 100GHz and beyond DARPA $500,000 8/1/13-7/31/15 PI (100%) Multi-focus optical microscopy for 3D imaging of nervous systems CBAM $30,000 1/1/14-12/30/14 Co-PI (Liu: 50%) PI: W. Kristan Super resolution ultrasound imaging beyond traditional limit UCSD $50,000 9/1/14-6/30/15 PI (Liu: 67%) Co-PI: P. Cosman; R. Mattrey (e) External Professional Activities (Examples include, but are not limited to, presentation of papers and lectures, technical service to organizations and agencies, acting as a reviewer of journal or book manuscripts or contract and grant proposals, or professional committee service.) Reviewer of journals (Nature Photonics, Nano Letters, Optics Letters, Optics Express, Applied Physics Letters, Journal of Applied Physics). Oct Apr Panelist of research proposals for US National Science Foundation (Nano-Manufacturing Program, unsolicited). Dec Proposal reviewer for the health research board (HRB), Ireland (health research awards). Apr Presentation of papers: Nanoplasmonics and optical superlensing, AVS 55 th International Symposium, Boston, Oct. 23 rd, invited paper Optical Hyperlens Imaging with Resolution Go Beyond the Conventional Diffraction Limit, 2009 OSA Spring Optics & Photonics Congress (the Novel Techniques in Microscopy Technical Program)

94 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/2016 Vancouver, BC, Canada, Apr. 27 th, Reviewer of journals: (Nature Photonics, Nature Communications, Nano Letters, Optics Letters, Optics Express, Applied Physics Letters, ACS Nano, Journal of Applied Physics, Applied Optics, IEEE Photonics Journal, Optics Communications, Journal of Modern Optics, Materials Science & Engineering Reports, Physica B: Condensed Matter, Journal of Optics, and Journal of Physical Chemistry). Jul May Proposal reviewer for the Austrian Science Fund (FWF), Austria. Sep Proposal reviewer for National Science Foundation (ECCS, Electronics photonics and magnetic devices program, unsolicited). Apr Reviewer of journals (Nature Photonics, Nature Communications, Nano Letters, Optics Letters, Optics Express, Applied Physics Letters, ACS Nano, and etc. ), Jul May Proposal reviewer for National Institute of Health (Cell, Computational and Molecular Biology). Jan Proposal reviewer for the Research Grants Council (RGC), Hong Kong, Mar Proposal reviewer for Los Alamos National Laboratory (the Center for Integrated Nanotechnologies), Apr Proposal reviewer for the National Research Foundation (Competitive Research Programme), Singapore, Jan Proposal reviewer for the Research Grants Council (RGC), Hong Kong, Mar Reviewer of journals (Nature Photonics, Nature Materials, Nature Nanotechnology, Nature Communications, Physics Review Letters, Nano Letters, Applied Physics Letters, Optics Letters, Optics Express, ACS Nano, and etc. ), Jul May Proposal reviewer for the Research Grants Council (RGC), Hong Kong, Mar Proposal reviewer for the Research Grants Council (RGC), Hong Kong, Mar Proposal reviewer for DOE-basic science, 2014 Conference committee numbers and chairs: Session Chair, ICMAT 2009, International conference on materials for advanced technologies symposium G plasmonics and applications, section 10 plasmonic particles and nanoantennas, cloaking. June 28, July 3, 2009, Singapore. Session Chair, SPIE 2009 Plasmonics: Nanoimaging, Nanofabrication, and Their Applications V, session 17: Nanoplasmonic Applications III. Aug. 6 th, 2009, San Diego. Session Chair, LEOS 2009, 22 nd Annual Meeting, WT: Application of Metamaterials. Belek- Antalya, Turkey, October 4-8, Session Chair, 2010 Chinese-American Kavli Frontiers of Science Symposium-Plasmonics, Irvine, CA, September 23-25, Committee Member, IEEE Photonics Society 2010 Annual Meeting, Nanophotonics Topical Sub- Committee, Denver, Colorado USA, November 7-11, Technical Program Committee, Photonics Global Conference 2010, Metamaterials and Plasmonics, Singapore, December 14-16, Technical Program Committee, The 5 th international conference on surface plasmon photonics. Busan, Korea, May 15-20, 2011.

95 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/2016 Program Committee, SPIE Optics and Photonics, Unconventional Imaging VII, San Diego, CA Subcommittee Member, 2013 CLEO: Science and Innovation 6: Optical Materials, Fabrication and Characterization Committee. Committee Member, IEEE Photonics Society Annual Meeting, Nanophotonics Topical Sub-Committee. International Program Committee, 2013 International Conference on Photonics, Optics and Laser Technology. Session Chair, International conference on nanomaterials 2013, London, Canada, August, 12-15, Program Committee, SPIE Optics and Photonics, Unconventional Imaging VII, San Diego, CA Committee Member, IEEE Photonics Society Annual Meeting, Nanophotonics Topical Sub-Committee. Subcommittee Member, 2014 CLEO: Science and Innovation 6: Optical Materials, Fabrication and Characterization Committee. International Program Committee, 2014 International Conference on Photonics, Optics and Laser Technology. Scientific and Technical Program Committee, The 7 th International Conference on Surface Plasmon Photonics, Session Chair, 2015 CLEO: Science and Innovation 6: Optical Materials, Fabrication and Characterization. (f) Most Significant Contributions to Promoting Diversity (Examples include, but are not limited to, developing strategies for the educational or professional advancement of students in underrepresented groups, contributions that promote equitable access and diversity in education, and in activities such as recruitment, retention, and mentoring.) Mentoring a female graduate student Mentored a female undergraduate student from UCI (g) Other Activities (List those that do not fit into categories a f above, including community service). (h) Student Instructional Activities 1. Please provide the following summary data for all courses taught during this review period (may attach): Course # and Title Quarter #Enrolled % Recommend Instructor ECE212CN (Nanophotonics) WI % ECE187 (Intro. Biomed Imaging) FA % ECE25 (Intro. to Digital Design) SP % ECE200 (Research Conference) SP14 6 n/a ECE200 (Research Conference) WI14 7 n/a ECE187 (Intro. Biomed Imaging) FA % ECE200 (Research Conference) FA13 7 n/a

96 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/ Please list all students mentored outside of the structured classroom setting. Please list by category (e.g., undergraduate research students, masters or doctoral candidates, postdoctoral or medical fellows, interns, residents) and indicate your role (e.g., thesis adviser, research adviser) for each student. For graduate students, indicate the year degree received when appropriate. Undergraduate Research Students: Name of Student/Your role (thesis adviser, research adviser, etc.) Stephen Hamann / research adviser Daniel Lee / research adviser Meilin Lu/research adviser Masters Students: Name of Student/Your Role (thesis adviser, research adviser, etc.) Joshua Hoemke (MSE student) / research adviser (graduated in FA12) Qian Ma / research adviser (passed UQE WI15) Bryan Vansader (MSE student) / thesis adviser (M.S. FA13) Doctoral Students: Name of Student/Your Role (thesis adviser, research adviser, etc.) Feifei Wei (Physics student) / thesis adviser (Ph.D. WI14) Danyong Lu / thesis adviser (Ph.D. FA14) Chun Joo Park / co-thesis adviser with William Song, Dept. Radiology (Ph.D. SP13) Dae Yup Han / co-thesis adviser with William Song, Dept. Radiology (Ph.D. SP15) Lorenzo Ferrari (MSE student) / thesis adviser (M.S. FA12) Eric Huang (Physics student) / thesis adviser (M.S. WI12) Joseph Ponsetto / thesis adviser (passed UQE SP14) Haoliang Qian (ECE student) / thesis adviser (M.S. WI15) Kang-Wei Wang (ECE student) / co-thesis adviser with Paul Yu (admitted FA12) Yunfeng Jiang (MSE student) / thesis adviser (M.S. FA14) Conor Riley (NanoE student) / co-thesis adviser with Don Sirbuly (M.S. SP12, passed UQE SP14) Huan Hu (ECE student) / thesis adviser (admitted FA14) Postdocs: Name of Student/Your Role Changbao Ma / research adviser (left UCSD at 2011) Wenwei Zheng / research adviser (left UCSD at 2014) Bahar Khademhosseini / research adviser (left UCSD at 2015) Dominic Lepage / research adviser (left UCSD at 2014) Conrad Rizal / co-research adviser with Eric Fullerton Yuzhe Xiao / research adviser Danyong Dylan Lu / research adviser Hao Shen / research adviser Other (List): Name/Your Role Please fill in the table below for number and type of exam committees you ve served on throughout the review period: Graduate Exam Committee type/category # sat on during period current review ECE Title in Italics ECE Department Other Departments MS Comprehensive / MS Plan II (Comprehensive Exam) 0 MS Research / MS Plan I (Thesis) 1 Thesis Defense Exams / Ph.D. Final Defense 7 5 PhD Research Exam (thesis proposal) PhD Comprehensive / Pre Lim (without MS, with MS) 4 Senate Exam Advance to Candidacy" / UQE 5 7

97 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/2016 List students graduated during this review period: Bryan VanSaders (MSE student), graduated FA13 with a master degree. Will join Univ. of Michigan Dyanyong Dylan Lu (ECE student, thesis adviser), graduated FA14 with a PhD degree, Currently Postdoc in UCSD Feifei Wei (Physics student, thesis adviser), graduated WI14 with a PhD degree. Currently working in Intel Dae Yup Han (ECE student, thesis co-adviser), graduated SP15 with a PhD degree, Will join UCSF (i) External Reviews of Primary Creative Work List only significant, independent reviews of the work e.g., independent reviews or feature articles appearing in journals or online venues, major newspapers, books, or catalogs. Forms of review and venues may vary by department. (Please do not include advertisements, brief mention of candidate s name or work, event listings, minor blog chatter, or self-promotional or commercial items.)

98 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/2016 Section III - Bibliography A. PRIMARY PUBLISHED OR CREATIVE WORK This section should include original peer-reviewed work that appears in the open literature and can be reasonably expected to be found in libraries outside UCSD, or an appropriately documented listing of creative endeavors such as performances or shows of artistic works. In addition to published work, this section may include items that are in press (i.e., accepted for publication in final form) or formally accepted (i.e., the publisher s binding acceptance of entire corpus has been received). Such items should clearly indicate in press or accepted somewhere in the citation. Do not include items that have been submitted for consideration but have not yet been accepted. Materials associated with items in this section should be submitted with the file. I. Original Peer-Reviewed Work or Listing of Creative Endeavors a. Refereed Journal Articles (All From A.I) 1. Z. Liu, Y. Qin, Y. Zhu, H. Wang, C. Zhang, S. Zhu, and N. Ming, Ultraviolet generation in a dual-periodic domain inverted structure in LiTaO 3 crystal by frequency tripling a mu m laser, Ferroelectrics, Vol. 253, No. 1 (February 01, 2001), pp Z. W. Liu, S. N. Zhu, Y. Y. Zhu, H. T. Wang, G. Z. Luo, H. Liu, N. B. Min, X.Y. Liang, and Z. Y. Xu, Red and blue light generation in an LiTaO 3 crystal with a double grating domain structure, Chinese Physics Letters, Vol. 18, No. 4 (April 2001), pp Z. W. Liu, S. N. Zhu, Y. Y. Zhu, H. Liu, Y. Q. Lu, H. T. Wang, N. B. Ming, X. Y. Liang, and Z. Y. Xu, A scheme to realize three-fundamental-colors laser based on quasi-phase matching, Solid State Communumication, Vol. 119, No. 6 (May 03, 2001), pp G. Z. Luo, S. N. Zhu, J. L. He, Y. Y. Zhu, H. T. Wang, Z. W. Liu, C. Zhang, and N. B. Ming, Simultaneously efficient blue and red light generations in a periodically poled LiTaO 3, Applied Physics Letters, Vol. 78, No. 20 (May 14, 2001), pp Z. W. Liu, S. N. Zhu, Y. Y. Zhu, H. Liu, Y. Q. Lu, J. L. He, C. Zhang, H. T. Wang, N. B. Ming, X. Y. Liang, and Z. Y. Xu, Quasi-cw ultraviolet generation in a dual-periodic LiTaO3 superlattice by frequency tripling, Japanese Journal of Applied Physics, Vol. 40, No. 12 (June 06, 2001), pp Z. W. Liu, Y. Du, J. Liao, S. N. Zhu, Y. Y. Zhu, Y. Q. Qin, H. T. Wang, J. L. He, C. Zhang, and N. B. Ming, Engineering of a Dual-periodic optical superlattice used in a coupled optical parametic interaction, J. Optical Society of America B., Vol. 19, No. 7 (July 2002), pp Y. Du, S. N. Zhu, Y. Y. Zhu, P. Xu, C. Zhang, Y. B. Chen, Z. W. Liu, N. B. Ming, X. R. Zhang, F. F. Zhang, and S. Y. Zhang, Parametric and cascaded parametric interactions in a quasiperiodic optical superlattice, Applied Physics Letters, Vol. 81, No. 9 (August 26, 2002), pp N. Fang, Z. Liu, T. J. Yen, and Z. Zhang, Regenerating evanescent waves from a silver superlens, Optics Express, Vol. 11, No. 7 (April 7, 2003), pp Z. Liu, N. Fang, T.-J. Yen, and X. Zhang, Rapid Growth of Evanescent Wave with a Silver Superlens, Applied Physics Letters, Vol. 83, No. 25 (December 22, 2003), pp X. Yin, L. Hesselink, Z. Liu, N. Fang, and X. Zhang, Large positive and negative lateral optical beam displacements due to surface plasmon resonance, Applied Physics Letters, Vol. 85, No. 3 (July 19, 2004), pp N. Fang, Z. Liu, T. J. Yen, X. Zhang, Experimental study of transmission enhancement of evanescent waves through silver films assisted by surface plasmon excitation, Applied Physics A, Vol. 80, No. 6 (March 11, 2005), pp Z. Liu, Q. H. Wei, and X. Zhang, Surface plasmon interference nanolithography, Nano Letters, Vol. 5, No. 5 (April 21, 2005), pp Z. Liu, J. M. Steele, W. Srituravanich, Y. Pikus, C. Sun, and X. Zhang, Focusing surface plasmons with a plasmonic lens, Nano Letters, Vol. 5, No. 9 (July 29, 2005), pp S. Durant, Z. Liu, J. M. Steele, and X. Zhang, Theory of the transmission properties of an optical far-field superlens for imaging beyond the diffraction limit, J. Optical Society of America B., Vol. 23, No. 11 (December 2, 2005), pp Z. Liu, J. M. Steele, H. Lee, and X. Zhang, Tuning the focus of a plasmonic lens by the incident angle, Applied Physics Letters, Vol. 88, No. 17 (April 27, 2006), pp J. M. Steele, Z. Liu, Y. Wang, and X. Zhang, Resonant and non-resonant generation and focusing of surface plasmons with circular gratings, Optics Express, Vol. 14, No. 12 (June 12, 2006), pp Z. Liu, S. Durant, H. Lee, Y. Pikus, N. Fang, Y. Xiong, C. Sun, and X. Zhang, Far field optical superlens, Nano Letters, Vol. 7, No. 2 (January 17, 2007), pp Z. Liu, D. Xi, D. Pile, Q. Luo, N. Fang, and X. Zhang, Enhanced backward scattering by surface plasmons on silver film, Applied Physics A, Vol. 87, No. 2 (January 31, 2007), pp

99 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/ Z. Liu, S. Durant, H. Lee, X. Xiong, Y. Pikus, C. Sun, and X. Zhang, Near-field Moire effect mediated by surface plasmon polariton excitation, Optics Letters, Vol. 32, No. 6 (March 15, 2007), pp Z. Liu, H. Lee, Y. Xiong, C. Sun, and X. Zhang, Far-Field Optical hyperlens magnifying sub-diffraction-limited objects, Science, Vol. 315, No (March 23, 2007), pp Z. Liu, S. Durant, H. Lee, Y. Pikus, Y. Xiong, C. Sun, and X. Zhang, Experimental studies of far-field superlens for subdiffractional optical imaging, Optics Express, Vol. 15, No. 11 (May 22, 2007), pp Y. Xiong, Z. Liu, S. Durant, H. Lee, C. Sun, and X. Zhang, Tuning the far-field superlens: from UV to visible, Optics Express, Vol. 15, No. 12 (May 29, 2007), pp H. Liu, D. A. Genov, D. M. Wu, Y. M. Liu, Z. W. Liu, C. Sun, S. N. Zhu, and X. Zhang, Magnetic plasmon hybridization and optical activity at optical frequencies in metallic nanostructures, Physical Review B, Vol. 76, No. 7 (August 14, 2007), pp Y. Xiong, Z. Liu, C. Sun, and X. Zhang, Two dimensional imaging by far-field superlens at visible wavelength, Nano Letters, Vol. 7, No. 11 (October 5, 2007), pp H. Lee, Z. Liu, Y. Xiong, C. Sun, and X. Zhang, Development of optical hyperlens for imaging below the diffraction limit, Optics Express, Vol. 5, No. 24 (November 15, 2007), pp S. Wang, S. Szobota, Y. Wang, M. Volgraf, Z. Liu, C. Sun, D. Trauner, E. Y. Isacoff, and X. Zhang, All optical interface for parallel, remote and spatiotemporal control of neuronal activity, Nano Letters, Vol. 7, No. 12 (November 23, 2007), pp H. Lee, Z. Liu, S. Durant, Y. Xiong, C. Sun, and X. Zhang, Design, fabrication and characterization of far-field superlens, Solid State Communications, Vol. 146, No. 5-6 (February 13, 2008), pp D. Wu, Z. Liu, C. Sun, and X. Zhang, Super-resolution imaging by random adsorbed molecule probes, Nano Letters, Vol. 8, No. 4 (March 6, 2008), pp X. Zhang, and Z. Liu, Superlenses to overcome the diffraction limit, Nature Materials, Vol. 7, No. 6 (May 30, 2008), pp J. Yao, Z. Liu, Y. Liu, Y. Wang, C. Sun, G. Bartal, A. Stacy, and X. Zhang, Optical negative refraction in bulk metamaterials of nanowires, Science, Vol. 321, No (August 15, 2008), pp Y. Xiong, Z. Liu, and X. Zhang, Projecting deep-subwavelength patterns from diffraction-limited masks using metaldielectric multilayers, Applied Physics Letters, Vol. 93, No. 11 (September 19, 2008), pp S. Han, Y. Xiong, D. Genov, Z. Liu, G. Bartal, and X. Zhang, Ray optics at a deep-subwavelength scale: A Transformation Optics Approach, Nano Letters, Vol. 8, No. 12 (October 29, 2008), pp Z. Liu, Y. Wang, J. Yao, H. Lee, W. Srituravanich, and X. Zhang, Broad band two-dimensional manipulation of surface plasmons, Nano Letters, Vol. 9, No. 1 (December 19, 2008), pp Y. Xiong, Z. Liu, and X. Zhang, A simple design of flat hyperlens for lithography and imaging with half-pitch resolution down to 20 nm, Applied Physics Letters, Vol. 94, No. 20 (May 20, 2009), pp E. J. Smith, Z. Liu, Y. F. Mei, and O. G. Schmidt, System investigation of a rolled-up metamaterial optical hyperlens structure, Applied Physics Letters, Vol. 95, No. 8 (August 24, 2009), pp J. Yao, K. T. Tsai, Y. Wang, Z. Liu, G. Bartal, Y. L. Wang, and X. Zhang, Imaging visible light using anisotropic metamaterial slab lens, Optics Express, Vol. 17, No. 25 (November 23, 2009), pp E. J. Smith, Z. Liu, Y. F. Mei, and O. G. Schmidt, Combined surface plasmon and classical waveguiding through metamaterial fiber design, Nano Letters, Vol.10, No. 1 (April 15, 2009), pp M. A. Escobar, M. Berthome, C. Ma, and Z. Liu, Focusing surface waves with an inhomogeneous metamaterials lens, Applied Optics, Vol. 49, No. 7 (November 10, 2009), pp. A18-A L. Feng, Z. Liu, V. Lomakin, and Y. Fainman, Form birefringence metal and its plasmonic anisotropy, Applied Physics Letters, Vol. 96, No. 4 (January 29, 2010) pp C. Ma and Z. Liu, Focusing light into deep subwavelength using metamaterial immersion lenses, Optics Express, Vol. 18, No. 5 (February 23, 2010), pp H. Hu, C. Ma, and Z. Liu, Plasmonic dark field microscopy, Applied Physics Letters, Vol. 96, No. 11 (March 18, 2010), pp C. Ma, and Z. Liu, A super resolution metalens with phase compensation mechanism, Applied Physics Letters, Vol. 96, No. 18 (May 4, 2010), pp F. Wei and Z. Liu, Plasmonic structured illumination microscopy, Nano Letters, Vol. 10, No. 7 (May 27, 2010), pp C. Ma, R. Aguinaldo, and Z. Liu, Advances in the hyperlens, Chinese Science Bulletin, Vol. 55, No. 24 (August 2010), pp J. Rho, Z. Ye, Y. Xiong, X. Yin, Z. Liu, H. Choi, G. Bartal, and X. Zhang, Spherical hyperlens for two-dimensional subdiffractional imaging at visible frequencies, Nature Communications, Vol. 1, (December 21, 2010), pp J. C. Park, S. H. Park, J. H. Kim, S. M. Yoon, S. S. Kim, J. S. Kim, Z. Liu, T. Watkins, and W. Y. Song, Four-dimensional cone-beam computed tomography and digital tomosynthesis reconstructions using respiratory signals extracted from

100 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/2016 transcutaneously inserted metal markers for liver SBRT a, Medical Physics, Vol. 38, No. 2 (January 31, 2011), pp C. Ma and Z. Liu, "Designing super-resolution metalenses by the combination of metamaterials and nanoscale plasmonic waveguide couplers," Journal of Nanophotonics, Vol. 5, (April 26, 2011), pp L. Feng, A. Mizrahi, S. Zamek, Z. Liu, V. Lomakin, and Y. Fainman, "Metamaterials for enhanced polarization conversion in plasmonic excitation," ACS Nano, Vol. 5, No. 6 (April 18, 2011), pp D. Lu, J. Kan, E. E. Fullerton, and Z. Liu, Tunable surface plasmon polaritons in Ag composite films by adding dielectrics or semiconductors, Applied Physics Letters, Vol. 98, No. 24 (June 16, 2011), pp J. C. Park, S. H. Park, J. S. Kim, Y. Han, M. K. Cho, H. K. Kim, Z. Liu, S. B. Jiang, B. Song, and W. Y. Song, Ultra-fast digital tomosynthesis reconstruction using general-purpose GPU programming for image-guided radiation therapy, Technology in Cacer Research & Treatment, Vol. 10, No. 4 (August 2011), pp J. Yao, Y. Wang, K. T. Tsai, Z. Liu, X. Yin, G. Bartal, A. M. Stacy, Y. L. Wang, and X. Zhang, Design, fabrication and characterization of indefinite metamaterials of nanowires, Philosophical Transactions of the Royal Society A, Vol. 369, (August 3, 2011), pp L. Feng, Z. Liu, and Y. Fainman, Direct observation of plasmonic index ellipsoids on a deep-subwavelength metallic grating, Applied Optics, Vol. 50, No. 31 (November 2011), pp. G1-G C. Ma, M. A. Escobar, and Z. Liu, Extraordinary light focusing and Fourier transform properties of gradient-index metalenses, Physical Review B, Vol. 84, No. 19 (November 28, 2011), pp C. Ma and Z. Liu, Breaking the imaging symmetry in negative refraction lenses, Optics Express, Vol. 20, No. 3 (January 30, 2012), pp K. Sun, Y. Jing, C. Li, X. Zhang, R. Aguinaldo, A. Kargar, K. Madsen, K. Banu, Y. Zhou, Y. Bando, Z. Liu, and D. Wang, "3D branched nanowire heterojunction photoelectrodes for high-efficiency solar water splitting and H2 generation," Nanoscale, Vol. 4, (January 24, 2012), pp J.C. Park, B. Song, J. S. Kim, S. H. Park, H. K. Kim, Z. Liu, T. S. Suh, and W. Y. Song, "Fast compressed sensing-based CBCT reconstruction using Barzilai-Borwein formulation for application to on-line IGRT," Medical Physics, Vol. 39, No. 3 (March 2012), pp J. C. Park, S. H. Park, J. H. Kim, S. M. Yoon, S. Y. Song, Z. Liu, B. Song, K. Kauweloa, M. J. Webster, A. Sandhu, L. K. Mell, S. B. Jiang, A. J. Mundt, and W. Y. Song, "Liver motion during cone beam computed tomography guided stereotactic body radiation therapy," Medical Physics, Vol. 39, No. 10 (October 2012), pp F. Wei, Y. W. O, G. Li, K. W. Cheah, and Z. Liu, "Organic light-emitting-diode-based plasmonic dark-field microscopy," Optics Letters, Vol. 37, No. 21 (November 1, 2012), pp D. Lu and Z. Liu, "Hyperlenses and metalenses for far-field super-resolution imaging," Nature Communications, Vol. 3, (November 13, 2012), pp W. Wan, C. Ma and Z. Liu, "Control the dispersive properties of compound plasmonic lenses," Optics Communications, Vol. 291, (December 5, 2012), pp A. Kargar, K. Sun, S. J. Kim, D. Lu, Y. Jing, Z. Liu, X. Pan, and D. Wang, Three-dimensional ZnO/Si broom-like nanowire heterostructures as photoelectrochemical anodes for solar energy conversion, Physica Status Solidi A (August 30, 2013), pp J. C. Park, J. S. Kim, S. H. Park, Z. Liu, B. Song, and W. Y. Song, Motion-map constrained image reconstruction (MCIR): application to four-dimensional cone-beam computed tomography, Medical Physics, Vol. 40, No. 12 (December 2013), pp D. Lu, J.J. Kan, E. E. Fullerton, and Z. Liu, Enhancing spontaneous emission rates of molecules using nanopatterned multilayer hyperbolic metamaterials, Nature Nanotechnology, Vol. 9, (January 2014), pp (From Work In Progress, C.1) 64. L. Ferrari, D. Lu, D. Lepage, and Z. Liu, Enhanced spontaneous emission inside hyperbolic metamaterials, Optics Express, Vol. 22, No. 4 (February 18, 2014), pp J. L. Ponsetto, F. Wei, and Z. Liu, Localized plasmon assisted structured illumination microscopy for wide-field highspeed dispersion-independent super resolution imaging, Nanoscale, Vol. 6, (April 2014), pp E. Dechaumphai, D. Lu, J. J. Kan, J. Moon, E. E. Fullerton, Z. Liu, and R. Chen, Ultralow thermal conductivity of multilayers with highly dissimilar Debye temperatures, Nano Letters, Vol. 14, No. 5 (April. 14, 2014), pp H. Shen, E, Huang, T. Das, H. Xu, M. Ellisman, and Z. Liu, TIRF microscopy with ultra-short penetration depth, Optics Express, Vol. 22, No. 9 (April 25, 2014), pp W. Wan, W. Zheng, Y. Chen, and Z. Liu, From Fano-like interference to superscattering with a single metallic nanodisk, Nanoscale, Vol. 6, (May 2014), pp J. Moon, D. Lu, B. VanSaders, T. K. Kim, S.D. Kong, S. Jin, R. Chen, and Z. Liu, High performance multi-scaled nanostructured spectrally selective coating for concentrating solar power, Nano Energy, Vol. 8 (June 20, 2014), pp

101 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/ F. Wei, D. Lu, H. Shen, W. Wan, J. L. Ponsetto, E. Huang, and Z. Liu, Wide field super-resolution surface imaging through plasmonic structured illumination microscopy, Nano Letters, Vol. 14 (July 11, 2014), pp T. K. Kim, J. Moon, B. VanSaders, D. Chun, C.J. Gardner, J. Y. Jung, G. Wang, R. Chen, Z. Liu, Y. Qiao, and S. Jin, Si boride-coated Si nanoparticles with improved thermal oxidation resistance, Nano Energy, Vol. 9 (July 4, 2014), pp F. Wei, D. Lu, R. Aguinaldo, Y. Ma, S. K. Sinha, and Z. Liu, Localized surface plasmon assisted contrast microscopy for ultrathin transparent specimens, Applied Physics Letters, Vol. 105, (October 20, 2014), pp T. K. Kim, B. VanSaders, J. Moon, T. Kim, C. H. Liu, J. Khamwannah, D. Chun, D. Choi, A. Kargar, R. Chen, Z. Liu, and S. Jin, Tandem structured spectrally selective coating layer of copper oxide nanowires combined with cobalt oxide nanoparticles, Nano Energy, Vol. 11, (October 28, 2014), pp A. I. Fernandez-Dominguez, Z. Liu, and J. B. Pendry, Coherent Four-fold Super-resolution imaging with composite photonic-plasmonic structured illumination, ACS Photonics, Vol. 2, No. 3, (January 16, 2015), pp J. Moon, T. K. Kim, B. VanSaders, C. Choi, Z. Liu, S. Jin, and R. Chen, Black oxide nanoparticles as durable solar absorbing material for high-temperature concentrating solar power system, Solar Energy Materials and Solar Cells, Vol. 134, (March 2015), pp II. Review and Invited Articles 1. L. Ferrari, C.H. Wu, D. Lepage, X. Zhang, and Z. Liu, Hyperbolic metamaterials and their applications, Progress in Quantum Electronics, Vol. 40, (March 2015), pp (From B.II.1) III. Books and Book Chapters (All From A.II) 1. X. Zhang, M. Ambati, N. Fang, H. Lee, Z. Liu, C. Sun, and Y. Xiong, Optical superlens, in Surface Plasmon Nanophotonics. P. G. Kik, and M. L. Brangersma, Eds. Dordrecht, The Netherlands: Springer, 2007, pp IV. Refereed Conference Proceedings (All From A.III) 1. Z. Liu, N. Fang, T. J. Yen, and X. Zhang, A pathway to subwavelength imaging using a metamaterial superlens, Proc. of SPIE Vol. 5221, San Diego, CA, August 3, 2003, pp invited paper. 2. Y. Liu, D. F. P. Pile, Z. Liu, D. Wu, C. Sun, and X. Zhang, Negative group velocity of surface plasmons on thin metallic films, Proc. of SPIE Vol. 6323, San Diego, CA, August 13, 2006, pp M 3. J. Yao, Y. Liu, Z. Liu, C. Sun, and X. Zhang, Surface plasmon beats formed on thin metal films, Proc. of SPIE Vol. 6323, San Diego, CA, August 30, 2006, pp K K.9 4. S. Durant, Z. Liu, N. Fang, and X. Zhang, Theory of optical imaging beyond the diffraction limit with a far-field superlens, Proc. of SPIE Vol. 6323, San Diego, CA, August 30, 2006, pp H. 5. Z. Liu, J. Yao, Y. Liu, Y. Wang, C. Sun, G. Bartal, A. M. Stacy, and X. Zhang, Bulky nanowire metamaterials for negative refraction at broadband frequencies from visible to NIR, Conference on Lasers and Electro-Optics (CLEO), Baltimore, Maryland, June 2, 2009, pp. JWC4. 6. F. Wei and Z. Liu, Plasmonic imaging beyond the diffraction limit, LEOS Annual Meeting Conference Proceedings, Belek-Antalya, Turkey, October 6, 2009, pp F. Wei, Y. W. O, H. Hu, G. Li, K. W. Cheah,, and Z. Liu, Fluorescent dye and OLED based plasmonic dark field microscopy, Frontiers in Optics 2011, San Jose, CA, October16-20, 2011, 2 pages. 8. C. Ma and Z. Liu, Metamaterial based lenses with distinctive imaging properties in forward and backward directions, IEEE Photonics Society Annual Meeting, Arlington, VA, October 9-13, 2011, pp D. Lu, J. Kan, E. E. Fullerton, and Z. Liu, Strongly enhanced fluorescence decay rates on multilayered plasmonic metamaterials, CLEO 2012, San Jose, CA, May 6-11, 2012, 2 pages. 10. D. Lu, J. Kan, E. E. Fullerton, and Z. Liu, Plasmonic multilayered nanostructured mediated solid-state lighting, ACS Symposium on Micro Technologies for Energy and Sustainability, San Diego, CA, March 28, 2012, 1 page. 11. D. Lu, J. Homeke, and Z. Liu, Plasmonics, metamaterials and their applications in energy harvesting and solid state lighting, ACS Symposium on Micro Technologies for Energy and Sustainability, San Diego, CA, March 28, 2012, 1 page. 12. W. Wan and Z. Liu, Control the dispersive focus properties of plasmonic lenses, CLEO Technical Digest 2012, Baltimore, MD, May 6-8, 2012, 2 pages. (previously omitted)

102 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/ D. Lu, L. Ferrari, J. J. Kan, E. E. Fullerton, and Z. Liu, Nanopatterned multilayer hyperbolic metamaterials for enhancing spontaneous light emission, CLEO 2014, San Jose, CA, June 13, 2014,, 2 pages. 14. L. Ferrari, D. Lu, D. Lepage, and Z. Liu, Enhanced spontaneous emission by embedding light emitters inside hyperbolic metamaterials, CLEO 2014, San Jose, CA, June 13, 2014, 2 pages. B. OTHER WORK I. Other Conference Proceedings II. Abstracts III. Popular Works a. Other Presentations/Works (All From B.III) 1. Z. Liu, W. Srituravanich, J. M. Steele, H. Lee, Q. Wei, and X. Zhang, Surface plasmon interference lithography, MRS spring meeting, San Francisco, CA, April 17-21, Z. Liu, W. Srituravanich, J. M. Steele, H. Lee, and X. Zhang, Nanolithography using surface plasmon interference and focusing, EIPBN 2006, Baltimore, MA, May 30 Jun. 2, Z. Liu, S. Durant, H. Lee, Y. Pikus, N. Fang, Y. Xiong, C. Sun, and X. Zhnag, Far field optical superlens imaging beyond diffraction limit, SPIE conference on nanophotonics, San Diego, CA, August 13-16, Z. Liu, Optical hyperlens and far-field superlens imaging, UC Berkeley, Plasmonic seminars, Electrical engineering department, Berkeley, CA, April 27, Invited 5. Z. Liu, and X. Zhang, Imaging below diffraction limit using superlens and hyperlens, OSA Photonic Metamaterials Conference, Jackson Hole, WY, June 4-7, Invited 6. Z. Liu, J. M. Steele, H. Lee, Y. Wang, C. Sun and X. Zhang, A versatile plasmonic lens, SPIE conference on nanophotonics, San Diego, CA, August 13-16, Z. Liu, H. Lee, Y. Xiong, C. Sun, and X. Zhang, Experimental demonstration of an optical hyperlens, SPIE conference on optics and photonics, San Diego, CA, August 26-30, Z. Liu, and X. Zhang, Optical superlens imaging by plasmonic metamaterials, Frontiers in Optics 2007, OSA s 91 st annual meeting, San Jose, CA, September 16-20, Invited 9. Z. Liu, Two dimensional plasmonic elements, UC Berkeley, Plasmonic seminars, Electrical engineering department, Berkeley, CA, October 26, Invited 10. Z. Liu, Optical imaging beyond diffraction limit, UCSD, Electrical engineering department, San Diego, CA, February 27, Invited 11. Z. Liu, Plasmonics and Optical Superlens, University of Minnesota, Electrical and Computer Engineering Department, Minneapolis, MN, March 3, Invited 12. Z. Liu, Plasmonics and Optical Superlens, MIT, Electrical Engineering and Computer Science Department, Boston, MA, March 13, Invited 13. Z. Liu, Magnifying nanoscale object by an optical hyperlens, IEEE International Nanoelectronics Conference (INEC) 2008, Shanghai, China, March 26, Z. Liu and X. Zhang, Optical superlens imaging by plasmonics metamaterials, PIERS 2008, Hangzhou, China, March 27, Invited 15. Z. Liu, Plasmonics and Optical Superlens, University of Colorado, Electrical and Computer Engineering Department, Boulder, CO, April 16, Invited 16. Z. Liu, Plasmonics and Optical Superlens, UCI, Electrical Engineering and Computer Science, Irvine, CA, April 21, Invited 17. Z. Liu, and X. Zhang, Optical superlens and hyperlens, Gordon Research Conferences, Plasmonics 2008, Tilton, NH, July 28, Invited 18. Z. Liu, Nanoplasmonics and optical superlensing, AVS 55 th International Symposium, Boston, MA, October 23, Invited 19. Z. Liu, Nano-scale super-resolution optical imaging of biofluorescent activity, UCSD, biology department, San Diego, CA, April 22, Invited 20. Z. Liu, Optical hyperlens imaging with resolution go beyond the conventional diffraction limit, 2009 OSA Spring Optics & Photonics Congress (the Novel Techniques in Microscopy Technical Program), Vancouver, BC, Canada, April 27, 2009.

103 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/ Z. Liu, Bulky Nanowire Metamaterials for Negative Refraction at Broadband Frequencies from Visible to NIR, CLEO/IQEC 2009, Baltimore, Maryland, June 3, Z. Liu, Far-field superlens for sub-diffraction limited optical lithography, DARPA/MTO workshop: metamaterials for lithography industry day, August 11, 2009, San Jose, CA, USA. Invited 23. Z. Liu, Plasmonic mediated imaging at nanoscale, SPIE 2009 Plasmonics: Nanoimaging, Nanofabrication, and Their Applications V, August 3, 2009, San Diego, CA, USA. Invited 24. Z. Liu, Plasmonic imaging, 5th International Conference on Materials For Advanced Technologies 2009, June 28, 2009, Singapore. Invited 25. Z. Liu, Plasmonic superlenses: imaging beyond the diffraction limit, University of California, Riverside, Electrical Engineering. November 2, Invited 26. Z. Liu, Plasmonic imaging beyond the diffraction limit, The 22nd Annual Meeting of the IEEE Photonics Society, Belek- Antalya, Turkey, October 4, Invited 27. Z. Liu, Plasmonic superlenses: imaging beyond the diffraction limit, University of California, Los Angles, Mechanical and Aerospace Engineering, Los Angeles, CA, December 3, Invited 28. Z. Liu, Plasmonic super resolution imaging, University of Southern California, Electrical Engineering, Los Angeles, CA, April 15, Invited 29. Z. Liu, Plasmonic superlenses: imaging beyond the diffraction limit, City University of Hong Kong, Department of Physics and Materials Science, Hong Kong, China, June 28, Invited 30. Z. Liu, Plasmonic superlenses: imaging beyond the diffraction limit, Chinese University of Hong Kong, Department of Electric Engineering, Hong Kong, China, June. 28, Invited 31. Z. Liu, Plasmonic superlenses, Chinese Academy of Science, Institute of Physics, Beijing, China. July 6, Invited 32. Z. Liu, The emerging field of plasmonics and their applications, Nanjing University, Physics Department, Nanjing, China. July 13-14, Invited 33. Z. Liu, Plasmonic superlenses and their applications in heat assisted magnetic recording, 2010 IEEE Magnetic Recording Conference, San Diego, CA. Aug. 16 th, Invited 34. Z. Liu, The emerging field of plasmonics, 2010 Chinese-American Kavli Frontiers of Science Symposium-Plasmonics, Irvine, CA, September 23-25, Invited 35. C. Ma and Z. Liu, Phase compensated metamaterials superlenses, Frontier in Optics 2010, Rochester, Oct , Z. Liu, Plasmonic assisted imaging techniques, International Photonics and OptoElectronics Meetings (POEM 2010)- Workshop on Plasmonics, Wuhan, China, Nov. 3-5, Invited 37. Z. Liu, Metalens imaging and compressive sensing, AFRL Metamaterials Workshop: At the crossroads of transformational optics and compressive sensing, Arlington, VA, Nov. 15 th, Invited 38. Z. Liu, Plasmonic metamaterials and their applications in extraordinary imaging, University of California, Irvine, Physics Department, May. 4 th, Invited 39. C. Ma and Z. Liu, Extraordinary imaging properties of metalens mediated by negative refraction, SPIE 2011 Optics and Photonics, San Diego, California, Aug 21 st, C. Ma, M. A. Escobar, and Z. Liu, Gradient index metalenses for extraordinary light focusing, SPIE 2011 Optics and Photonics, San Diego, California, Aug 21 st, SPIE 2011 Optics and Photonics: Imaging the very small II., San Diego, California, Aug 21 st, Invited 42. Northeast University, Shenyang, China, Sep. 5 th, Invited 43. Progress in Electromagnetics Research Symposium (PIERS) 2011, Suzhou, China, Sep. 14 th, Invited 44. Fudan University, Department of Materials Science, Shanghai, China, Sep. 15 th, Invited 45. Shanghai Jiao-tong University, University of Michigan-Shanghai Jiao Tong University Joint Institute, Shanghai, China, Sep. 16 th, Invited 46. C. Ma and Z. Liu, Metamaterial based lenses with distinctive imaging properties in forward and backward directions, IEEE Photonics Society Annual Meeting, Arlington, Virginia, Oct. 11 th, KLA-Tencor, CTO seminar series, San Jose, CA, Feb. 14 th, Invited 48. The 243 rd ACS Nation Meeting, Symposium on Micro Technologies for Energy and Sustainability, San Diego, CA, Mar. 28 th, Invited 49. The 3 rd International Conference on Metamaterials, Photonic Crystals and Plasmonics (META 2012), Advances in Metamaterials and Plasmonics III, Paris, France, Apr. 21 st, Invited 50. The 3 rd International Conference on Metamaterials, Photonic Crystals and Plasmonics (META 2012), Plasmonic antennas and lenses I, Paris, France, Apr. 21 st, Invited 51. SPIE 2012 Optics and Photonics: Imaging the very small II., San Diego, California, Aug 14 th, Invited 52. DRAPA Nanophotonics for Infrared Imaging Workshop. Arlington, VA, Oct. 25 th, Invited 53. Wuhan University, School of Physics and Technology, Wuhan, China, Nov. 8 th, Invited

104 Review Period materials cover: From: 07/01/2013 To: 06/30/2015 Current Review Eff: 7/1/ Nankai University, School of Physics, Tianjin, China, Nov. 14 th, Invited 55. Illumina Inc., San Diego, CA, Jan. 31th, Invited 56. MRS Spring Meeting, San Francisco, CA, Apr. 5 th, Invited 57. NSF summer institute on nanomechanics, nanomaterials, and micro/nanomanufacturing A short course on: novel superresolution methods for bioimaging, San Diego, CA, Apr. 28 th, Invited 58. Advances in Optics for Biotechnology, Medicine and Surgery XIII, Lake Tahoe, CA, Jun. 5 th, Invited 59. Institute of High Performance Computing, AStar, Singapore, Jul. 23 rd, Invited 60. National University of Singapore, Electrical and Computer Engineering, Jul. 24 th, Invited 61. International Conference on Nanomaterials 2013, London, Canada, Aug. 14 th, Invited 62. National Tsinghua University, Materials Science Engineering, Sep. 10 th, Invited 63. Academia Sinica, Research Center for Applied Sciences, Taipei, Taiwan, Sep. 12 th, Invited 64. IEEE Photonics Society and IEEE San Diego Section, San Diego, Nov. 20 th, Invited 65. Progress in Electromagnetics Research Symposium, Guangzhou, China, Aug. 27 th, Invited 66. University of Science and Technology of China, Department of Optics and Optical Engineering, Hefei, Sep. 18 th, 2014 Invited 67. University of Buffalo, Electrical Engineering Department, Buffalo, NY, Oct. 24 th, 2014 Invited 68. UCSD-Korea University Material Research Colloquium, San Diego, CA, Dec. 11 th, Invited 69. Shenzhen University, College of Optoelectronic Engineering, Shenzhen, China, Mar. 30 th, Invited 70. Transformations in Optics, Lorentz Center, University of Leiden, Leiden, The Netherlands, May , 2015 Invited 71. Frontiers in Super Resolution Microscopy: bio-imaging and beyond, Midreshet Sde Boker, Ben Gurion University of the Negev, Israel, May 27-29, Invited 72. The 7 th International Conference on Surface Plasmon Photonics (SPP7), Jerusalem, May 31-June 5, Nanjing University of Post and Telecommunications, School of Electrical Engineering, Jun. 15th, Invited 74. Southeast University, Electrical Engineering, Jun. 19th, Invited IV. Additional Products of Major Research a. Patent/Patent License 1. Z. Liu, High resolution structured illumination microscopy, US Patent 8,836,948, 2014 C. WORK IN PROGRESS This section is optional and should include only items for which there is actual material that will be submitted with the file for review. This section is intended primarily for disciplines in which completion of scholarly work normally occurs over a lengthy period of time, and in which evidence of progress on a project is considered crucial for assessing a candidate s accomplishments. Such evidence might include chapters of a major book or documentation of progress on a major work of art. This section is particularly important for appraisals of assistant professors. For other actions, use of the Work in Progress section is discouraged. When an item is moved from Section C to either Section A or B, it should be annotated accordingly (e.g., from Work in Progress ). Work may also be removed from Section C if it has been abandoned and is no longer in progress, provided that it has been listed in this section for two consecutive review cycles. (It is listed as in progress at one review, as abandoned at the next, and is removed at the third). Although a horizontal line should be used to indicate new items added, the items listed and the numbering scheme may be altered at each review, if necessary, and should be annotated accordingly. Selected publications can be found at the following link: I have provided the information contained in the Biography/Bibliography packet or have reviewed it for accuracy. Signature 6/30/15 Date