Adjunct Associate Professor, Electrical Engineering and Computer Science

David R. Haas Adjunct Associate Professor, Electrical Engineering and Computer Science Degree with Fields, Institution, and Date Ph.D., Electrical Engineering, University of California, Berkeley, 1985 BS, Engineering Physics, University of Illinois, Urbana-Champaign, 1978 Years of Service on this Faculty: 3 Date of Original Appointment: September 2015 Advancement in Rank/Position Adjunct Associate Professor, September 2015 Other Teaching Experience Director of ECE Laboratories, New Jersey Institute of Laboratories, 2015-2016 Assistant to the Chair for Laboratories, New Jersey Institute of Laboratories, 2011-2015 Lecturer, Fairleigh Dickinson University, 2007-2011 Adjunct Faculty, Middlesex Community College, 2007 Visiting Faculty, University of California, Berkeley, 1978-1986 Industrial Experience Independent Consultant, 2005-2007 Director Optical Interconnect Development, Sanmina-SCI Corporation, 2002-2005 Technical Leader, Honeywell Corporation, 2001 Principal Scientist, Honeywell Corporation, 1996-2001

Page 2 of 5 Technology and Business Assessment Analyst, Hoechst Celanese Corporation, 1992-1996 Staff Engineer and Project Leader, Hoechst Celanese Corporation, 1991-1992 Project Leader, Hoechst Celanese Corporation, 1989-1991 Senior Research Engineer, Hoechst Celanese Corporation, 1988-1991 Research Engineer, Hoechst Celanese Corporation, 1986-1988 Consulting and Patents "Frequency doubling polymeric waveguide", US Patent (USP) #4865406 "Polarization-insensitive linear waveguide electrooptic phase modulator", USP #4932737 "Polarization-insensitive interferometric waveguide electrooptic modulator", USP #4932738 "Polymeric waveguides with bidirectional poling for radiation phase-matching", USP #5061028 "Formation of polymer channel waveguides by excimer laser ablation and method of making same", USP #5106211 "Smooth-wall polymeric channel and rib waveguides exhibiting low optical loss", USP #5143577 "Lasable bond-ply materials for high density printed wiring boards", USP #6673190 "Microfiber dielectrics which facilitate laser via drilling", USP #6530147 "Lasable bond-ply materials for high density printed wiring boards", USP #6245696 "Microfiber dielectrics which facilitate laser via drilling", USP #6224965 "Fabrication of high density multilayer interconnect printed circuit boards", US Patent #6255039 Publications Performance evaluation of fully embedded board level optical interconnection, Jinho Choi; Li Wang; Xiaolong Wang; Hass, D.; Magera, J.; Chen, R.T.; Biophotonics/Optical Interconnects and VLSI Photonics/WBM Microcavities, 2004 Digest of the LEOS Summer Topical Meetings Flexible optical waveguide film fabrications and optoelectronic devices integration for fully embedded board-level optical interconnects, Choi, C.; Lin, L.; Yujie Liu; Jinho Choi; Li Wang; Haas, D.; Magera, J.; Chen, R.T.; Journal of Lightwave Technology, Volume 22, Issue 9, Sept. 2004 Page(s):2168-2176 Flexible optical waveguide film with 45-degree micromirror couplers for hybrid E/O integration or parallel optical interconnection, Chulchae Choi, Yujie Liu, Lei Lin, Li Wang, Jinho Choi, David Haas, Jerry Magera, and Ray T. Chen, Proc. SPIE Int. Soc. Opt. Eng. 5358, 122 (2004)

Page 3 of 5 "Polymeric waveguide modulators: Fabrication, performance and needs", Rank-Prize Synposium on Polymeric Electro-Optics, December 8-10, Moreton on Marsh U.K., invited paper Critical requirements for non linear optical polymeric materials in active optical devices: The present state and prospects for the future, J. Stamatoff, R. DeMartino, D. Haas, G. Khanarian, H. T. Man, R. Norwood, H. N. Yoon, Angewandte Makromolekulare Chemie 03/2003; 183(1):151-166. Polymer-based electro-optic modulators - Fabrication and performance, David R. Haas, H. T. Man, C. C. Teng, Kophu P. Chiang, Hyun N. Yoon, Talal K. Findakly, Proceedings of SPIE - The International Society for Optical Engineering 02/1991 Electro-optic and nonlinear optical polymers and devices, Harris A. Goldberg, Anthony J. East, Robert E. Johnson, Garo Khanarian, Robert A. Norwood, Michael J. Sansone, I. Kalnin, David R. Haas, R. Keosian, Proceedings of SPIE - The International Society for Optical Engineering 12/1990 Phase matched second harmonic generation in a polymer waveguide, G. Khanarian, R. A. Norwood, D. Haas, B. Feuer, D. Karim, Applied Physics Letters 10/1990; Polymeric materials for high-speed electro-optic waveguide modulators, Hong-Tai Man, Kophu P. Chiang, David R. Haas, Chia-Chi Teng, Hyun N. Yoon, Proceedings of SPIE - The International Society for Optical Engineering 04/1990 Polymeric electro-optic waveguide modulator: materials and fabrication, David R. Haas, Hyun N. Yoon, Hong-Tai Man, Graham H. Cross, Stephen Mann, Nicholas J. Parsons, Proceedings of SPIE The International Society for Optical Engineering 12/1989; 1147:222-232. "Polymeric Electro-Optic Waveguide Modulator; Materials and Fabrication", David Haas, Hyun Yoon, Hong-Tai Man, Graham Cross, Steve Man, and Nicholas Parsons. Invited paper, Proceedings of the SPIE, vol 1147, "Nonlinear Optical Properties of Organic Materials II" (1989), pp. 222-232. Polymeric integrated electro-optic modulators, Graham H. Cross, Alan Donaldson, R. W. Gymer, Stephen Mann, Nicholas J. Parsons, David R. Haas, Hong-Tai Man, Hyun N. Yoon, Proceedings of SPIE - The International Society for Optical Engineering 01/1989 Development of Polymeric Nonlinear Optical Material, Thomas M. Leslie, Ronald N. Demartino, E. Won Choe, Garo Khanarian, David Haas, Greg Nelson, James B. Stamatoff, Dago E. Sizietz, Chia-Chi Teng, Hyun-Nam Yoon, Molecular Crystals and Liquid Crystals. 12/1987; 153(1):451-477.

Page 4 of 5 Transient optical pulse formation and mode locking through parametric traveling-wave modulation., D Haas, T K Gustafson, C L Tang, J McLean, Optics Letters 05/1986; 11(4):219. "Transient Optical Pulse Formation and Mode-Locking Through Parametric Traveling Wave Modulation", D.R. Haas, T.K. Gustafson, C.L. Tang, and J. McLean, Optics Letters vol. 11, 1986. "On The High Frequency Rolloff In The Response of Junction Detectors", D.R. Haas, Theodore Yu, and T.K. Gustafson, Journal of the Optical Society of America-B, 1985, vol. 2. Relationship between the stationary state and first order transfer Hamiltonian tunneling models, S. R. Whiteley, D. Haas, T. K. Gustafson, Journal of Applied Physics 08/1985 Transient analysis of mode locking including mirror (A), D. Haas, J. McLean, T. K. Gustafson, C. L. Tang, Journal of the Optical Society of America A. 01/1985 High-frequency rolloff in the response of junction detectors, David R. Haas, Theodore Yu, Jon G. Wurl, T. K. Gustafson, Journal of the Optical Society of America B 01/1985; 2(12). Production of short pulses in semiconductor lasers by external laser excitation through χ3, D Haas, J Wurl, J McLean, T K Gustafson, Optics Letters 11/1984; 9(10):445-7. 3.18 Impact Factor Optical interactions between confined surface electromagnetic waves and tunneling transitions in junction devices, T. K. Gustafson, R. Hemphill, Joel Wummer, David Haas, S. R. Whitely, Proceedings of SPIE - The International Society for Optical Engineering 11/1983 Scientific and Professional Societies of Which a Member Member, IEEE Member, OSA Vice Chair, Integrated and Micro Optics technical group, 1993 Professional Service Member, M-WERC policy working group and M-WERC Distributed Energy/Energy Storage working group, 2016-2017 Wrote IEEE Historic milestone application for the Weston meter, IEEE global history committee, Newark, NJ, 2014-2015 Presentations Given

Page 5 of 5 Guest speaker, Weston meter milestone dedication ceremony, Newark, NJ, September 2016 Special Qualifications Graduate degree Minor in applied Mathematics. Expertise in integrated opto-electronics.