Teaching optics with a focus on innovation. Douglas Martin Lawrence University
|
|
- Kristina O’Brien’
- 6 years ago
- Views:
Transcription
1 Teaching optics with a focus on innovation Douglas Martin Lawrence University
2 Our goal and conceit Teach students to be more innovative Prepare students for research in a modern optics lab. Aprile Lab, Columbia Martin Lab, Lawrence while covering the content in a traditional junior/senior optics course
3 teaching students to innovate... in optics! the application of new ideas or approaches to the improvement of products or processes that draw upon important antecedents and provide value to society
4 teaching students to innovate... select target (what to innovate) acquire (or have) expertise generate ideas prune ideas and plan prototype refine and revise in optics! provided, except for final project canned labs brainstorming/ Deep Dive (IDEO) pre lab activities build with modular optics equipment
5 Our Modular Optics Equipment
6 Optics in 10 weeks Monday Wednesday Friday 70+ minute lecture 3+ hour lab 3+ hour lab (with candy) students grouped into teams of 2 or 3 8 canned labs designed to build expertise ~2 hour pre lab for each lab session 4 two session challenge labs 1 four session student designed project
7 The Canned Labs 1. Refraction and imaging 2. Reflection and beam steering 3. Collimation and beam profiling 4. Aberrations: spherical and chromatic 5. Characterization of polarized light 6. Interference phenomena 7. Michelson interferometer 8. Diffraction and spatial filtering
8 Canned Lab Example: Aberrations Prelab: 10. Draw a ray diagram showing how the following patterns arisefor a lens with spherical aberration. Have the knife edge cut off exactly the bottom half of the rays. marginal ray paraxial ray mid focus In lab:
9 Mini challenge: Aberration minute innovation challenge at the end of each canned lab. Aberration mini challenge: Make a circle of light with one hemisphere red, the other hemisphere green.
10 The Challenge Labs 1. Build a Telescope: Long distance imaging, capture, and resolution characterization 2. White Light Interferometry 3. Interferometric Metrology Challenge 4. Optical Computing (Fourier Optics and Spatial Filtering) used Spatial Light Modulators (SLM) *** Workshop 16 on Thursday. *** 5. Final Projects (student determined)
11 Challenge Lab Example: Build a Telescope Your primary goal is to form a legible image on the webcam of the smallest font text possible (24 pt, 12 pt, 9 pt, 6 pt, 3 pt) on the paper attached to the whiteboard ~ 4 m away from your bench. Once you have reached the limit you think possible, characterize the magnification of your telescope, and spherical and chromatic aberration in the system.
12 Telescope Challenge Outcome Anecdotal: Students took enormous satisfaction designing, building, and characterizing their telescopes Telescope with the best resolution: Galilean telescope, with large parabolic mirror.
13 Challenge Lab Example: Interferometer Measurement Challenge Students instructed to choose a measurement, and used the interferometer that will best suit their experiment. Possible Interferometer Choice Mach Zender Sagnac Wedge plate Scatter Fabry Perot Twyman Green = (Michelson) Possible Measurement Choices Index of refraction of air or another gas (as a function of temperature or something else?) Thermal expansion of a metal copper, aluminum, etc. Radius of curvature of a spherical mirror The wavelength difference of two closely spaced spectral lines (such as D1 and D2 of sodium) Optical quality of a prism Thickness of a glass plate of known index of refraction
14 Interferometer Challenge Outcomes
15 Challenge Example: Optical Computing with SLM A SLM is a liquid crystal device that is in essence a variable wave plate. It has 1024x768 pixels, each of which can retard a wave by 0-π radians The two challenges were: (i) Extract a kitty from a hexagonal cage. (ii) Create a dynamic filter that transitions white light to a single color
16 Final Projects imaging by different animal eye apertures holographic interferometry solar spectroscopy external cavity modes optical tweezers aberration minimized camera
17 Selected comments from Student Evaluations Labs were extraordinarily successful, frustrating, enjoyable, frustrating, and learning centered. Fantastic. One of the best classes I've taken... but group work was hard. The instructors practiced the rare ability of supporting students without giving us the answers. We tried to work on problems from a theoretical perspective on the pre lab assignments, but the concepts didn't click until trying it out in lab. The build up from canned labs to challenges with more and more independence was great.
18 Lessons Learned Successful Not as successful... Students learned a lot of optics and practical techniques Prelab handouts successfully prepared students for canned labs (without need of extensive lecture) Prelabs for challenge labs: plans and troubleshooting brainstorms, with prioritization Being visual an excellent means of communication & building a framework Students report success in optics research labs (Arizona Optical Sciences, Colorado, Brandeis,...) Course is a large time commitment (for profs and students) Students did not fail early enough! (They did not buy into the idea of prototyping) Students had a hard time stepping back and analyzing WHY something was an issue/problem (what is the underlying constraint?)
19 Outlook for the Lab Co Curriculum Lab based optics can provide both content theory (from imaging through Fourier Optics and diffraction) practice (optomechanics assembly and manipulation) and process design build refine and repeat
20 Acknowledgements Shannon O Leary (now at Lewis & Clark) NSF CCLI (now TUES) program for funding LU physics faculty and students Plug: Shannon is the moderator for the Optics & Laser breakout discussion Friday at 8:45 am
Optics and Lasers. Matt Young. Including Fibers and Optical Waveguides
Matt Young Optics and Lasers Including Fibers and Optical Waveguides Fourth Revised Edition With 188 Figures Springer-Verlag Berlin Heidelberg New York London Paris Tokyo Hong Kong Barcelona Budapest Contents
More informationSpatial Light Modulator (SLM) Workshop, BFY 2012 Conference Douglas Martin and Shannon O Leary Lawrence University and Lewis & Clark College
Spatial Light Modulator (SLM) Workshop, BFY 2012 Conference Douglas Martin and Shannon O Leary Lawrence University and Lewis & Clark College Briefly, a spatial light modulator (SLM) is a liquid crystal
More informationEE119 Introduction to Optical Engineering Spring 2002 Final Exam. Name:
EE119 Introduction to Optical Engineering Spring 2002 Final Exam Name: SID: CLOSED BOOK. FOUR 8 1/2 X 11 SHEETS OF NOTES, AND SCIENTIFIC POCKET CALCULATOR PERMITTED. TIME ALLOTTED: 180 MINUTES Fundamental
More informationJ. C. Wyant Fall, 2012 Optics Optical Testing and Testing Instrumentation
J. C. Wyant Fall, 2012 Optics 513 - Optical Testing and Testing Instrumentation Introduction 1. Measurement of Paraxial Properties of Optical Systems 1.1 Thin Lenses 1.1.1 Measurements Based on Image Equation
More informationExercise 8: Interference and diffraction
Physics 223 Name: Exercise 8: Interference and diffraction 1. In a two-slit Young s interference experiment, the aperture (the mask with the two slits) to screen distance is 2.0 m, and a red light of wavelength
More informationBasics of INTERFEROMETRY
Basics of INTERFEROMETRY P Hariharan CSIRO Division of Applied Sydney, Australia Physics ACADEMIC PRESS, INC. Harcourt Brace Jovanovich, Publishers Boston San Diego New York London Sydney Tokyo Toronto
More information(Note: recitation time may be changed if students agree on an alternate time.) Office: Room 209 CREOL Building,
Course Syllabus OSE 3052 Introduction to Photonics, Spring 2014 M, W 3:00 4:15 pm, CREO A214 Instructor: Dr. David Hagan Recitation section Friday, 10:00 10:50 am, CREO A214 Recitation Instructor: Dr.
More informationinstruments Solar Physics course lecture 3 May 4, 2010 Frans Snik BBL 415 (710)
Solar Physics course lecture 3 May 4, 2010 Frans Snik BBL 415 (710) f.snik@astro.uu.nl www.astro.uu.nl/~snik info from photons spatial (x,y) temporal (t) spectral (λ) polarization ( ) usually photon starved
More informationPHY 431 Homework Set #5 Due Nov. 20 at the start of class
PHY 431 Homework Set #5 Due Nov. 0 at the start of class 1) Newton s rings (10%) The radius of curvature of the convex surface of a plano-convex lens is 30 cm. The lens is placed with its convex side down
More informationUltralight Weight Optical Systems using Nano-Layered Synthesized Materials
Ultralight Weight Optical Systems using Nano-Layered Synthesized Materials Natalie Clark, PhD NASA Langley Research Center and James Breckinridge University of Arizona, College of Optical Sciences Overview
More informationR.B.V.R.R. WOMEN S COLLEGE (AUTONOMOUS) Narayanaguda, Hyderabad.
R.B.V.R.R. WOMEN S COLLEGE (AUTONOMOUS) Narayanaguda, Hyderabad. DEPARTMENT OF PHYSICS QUESTION BANK FOR SEMESTER III PAPER III OPTICS UNIT I: 1. MATRIX METHODS IN PARAXIAL OPTICS 2. ABERATIONS UNIT II
More informationOffice: Room 209 CREOL Building, Materials available on UCF Webcourses system
Course Syllabus OSE 3052 Introduction to Photonics, Spring 2016 M, W 3:00 4:15 PM, CREO 102 Instructor: Dr. David Hagan Discussion period Mondays, 4:30 5:20 PM, CREO 103 Discussion Instructor: Dr. Romain
More informationCourse Syllabus OSE 3200 Geometric Optics
Course Syllabus OSE 3200 Geometric Optics Instructor: Dr. Kyle Renshaw Term: Fall 2016 Email: krenshaw@creol.ucf.edu Class Meeting Days: Monday/Wednesday Phone: 407-823-2807 Class Meeting Time: 10:30-11:45AM
More informationBasics of INTERFEROMETRY
Basics of INTERFEROMETRY Second Edition P. HARIHARAN School ofphysics, Sydney, Australia University of Sydney CPi AMSTERDAM BOSTON HEIDELBERG LONDON NEW YORK OXFORD PARIS SAN DIEGO SAN FRANCISCO SINGAPORE
More informationOCT Spectrometer Design Understanding roll-off to achieve the clearest images
OCT Spectrometer Design Understanding roll-off to achieve the clearest images Building a high-performance spectrometer for OCT imaging requires a deep understanding of the finer points of both OCT theory
More informationWaves & Oscillations
Physics 42200 Waves & Oscillations Lecture 33 Geometric Optics Spring 2013 Semester Matthew Jones Aberrations We have continued to make approximations: Paraxial rays Spherical lenses Index of refraction
More informationPHYS 160 Astronomy. When analyzing light s behavior in a mirror or lens, it is helpful to use a technique called ray tracing.
Optics Introduction In this lab, we will be exploring several properties of light including diffraction, reflection, geometric optics, and interference. There are two sections to this lab and they may
More informationEE119 Introduction to Optical Engineering Fall 2009 Final Exam. Name:
EE119 Introduction to Optical Engineering Fall 2009 Final Exam Name: SID: CLOSED BOOK. THREE 8 1/2 X 11 SHEETS OF NOTES, AND SCIENTIFIC POCKET CALCULATOR PERMITTED. TIME ALLOTTED: 180 MINUTES Fundamental
More informationWeek IV: FIRST EXPERIMENTS WITH THE ADVANCED OPTICS SET
Week IV: FIRST EXPERIMENTS WITH THE ADVANCED OPTICS SET The Advanced Optics set consists of (A) Incandescent Lamp (B) Laser (C) Optical Bench (with magnetic surface and metric scale) (D) Component Carriers
More informationWhy is There a Black Dot when Defocus = 1λ?
Why is There a Black Dot when Defocus = 1λ? W = W 020 = a 020 ρ 2 When a 020 = 1λ Sag of the wavefront at full aperture (ρ = 1) = 1λ Sag of the wavefront at ρ = 0.707 = 0.5λ Area of the pupil from ρ =
More informationObservational Astronomy
Observational Astronomy Instruments The telescope- instruments combination forms a tightly coupled system: Telescope = collecting photons and forming an image Instruments = registering and analyzing the
More informationPhysics 431 Final Exam Examples (3:00-5:00 pm 12/16/2009) TIME ALLOTTED: 120 MINUTES Name: Signature:
Physics 431 Final Exam Examples (3:00-5:00 pm 12/16/2009) TIME ALLOTTED: 120 MINUTES Name: PID: Signature: CLOSED BOOK. TWO 8 1/2 X 11 SHEET OF NOTES (double sided is allowed), AND SCIENTIFIC POCKET CALCULATOR
More informationEE119 Introduction to Optical Engineering Spring 2003 Final Exam. Name:
EE119 Introduction to Optical Engineering Spring 2003 Final Exam Name: SID: CLOSED BOOK. THREE 8 1/2 X 11 SHEETS OF NOTES, AND SCIENTIFIC POCKET CALCULATOR PERMITTED. TIME ALLOTTED: 180 MINUTES Fundamental
More informationCourse Syllabus OSE 3200 Geometric Optics
Course Syllabus OSE 3200 Geometric Optics Instructor: Dr. Kyu Young Han Term: Spring 2018 Email: kyhan@creol.ucf.edu Class Meeting Days: Monday/Wednesday Phone: 407-823-6922 Class Meeting Time: 09:00-10:15AM
More informationLEOK-3 Optics Experiment kit
LEOK-3 Optics Experiment kit Physical optics, geometrical optics and fourier optics Covering 26 experiments Comprehensive documents Include experiment setups, principles and procedures Cost effective solution
More informationIntroduction to Imaging Spectrometers
Introduction to Imaging Spectrometers William L. Wolfe Professor Emeritus, Optical Sciences Center, University of Arizona Tutorial Texts in Optical Engineering Volume TT25 Donald С O'Shea, Series Editor
More informationLOS 1 LASER OPTICS SET
LOS 1 LASER OPTICS SET Contents 1 Introduction 3 2 Light interference 5 2.1 Light interference on a thin glass plate 6 2.2 Michelson s interferometer 7 3 Light diffraction 13 3.1 Light diffraction on a
More informationMASSACHUSETTS INSTITUTE OF TECHNOLOGY Department of Electrical Engineering and Computer Science
Student Name Date MASSACHUSETTS INSTITUTE OF TECHNOLOGY Department of Electrical Engineering and Computer Science 6.161 Modern Optics Project Laboratory Laboratory Exercise No. 6 Fall 2010 Solid-State
More informationHandbook of Optical Systems
Handbook of Optical Systems Volume 5: Metrology of Optical Components and Systems von Herbert Gross, Bernd Dörband, Henriette Müller 1. Auflage Handbook of Optical Systems Gross / Dörband / Müller schnell
More informationN.N.Soboleva, S.M.Kozel, G.R.Lockshin, MA. Entin, K.V. Galichsky, P.L. Lebedinsky, P.M. Zhdanovich. Moscow Institute ofphysics and Technology
Computer assisted optics teaching at the Moscow Institute ofphysics and Technology N.N.Soboleva, S.M.Kozel, G.R.Lockshin, MA. Entin, K.V. Galichsky, P.L. Lebedinsky, P.M. Zhdanovich Moscow Institute ofphysics
More informationPHY170: OPTICS. Things to do in the lab INTRODUCTORY REMARKS OPTICS SIMULATIONS
INTRODUCTORY REMARKS PHY170: OPTICS The optics experiments consist of two major parts. Setting up various components and performing the experiments described below. Computer simulation of images generated
More informationFor rotationally symmetric optical
: Maintaining Uniform Temperature Fluctuations John Tejada, Janos Technology, Inc. An optical system is athermalized if its critical performance parameters (such as MTF, BFL, EFL, etc.,) do not change
More informationLecture 2: Geometrical Optics. Geometrical Approximation. Lenses. Mirrors. Optical Systems. Images and Pupils. Aberrations.
Lecture 2: Geometrical Optics Outline 1 Geometrical Approximation 2 Lenses 3 Mirrors 4 Optical Systems 5 Images and Pupils 6 Aberrations Christoph U. Keller, Leiden Observatory, keller@strw.leidenuniv.nl
More informationGEOMETRICAL OPTICS AND OPTICAL DESIGN
GEOMETRICAL OPTICS AND OPTICAL DESIGN Pantazis Mouroulis Associate Professor Center for Imaging Science Rochester Institute of Technology John Macdonald Senior Lecturer Physics Department University of
More informationLecture 2: Geometrical Optics. Geometrical Approximation. Lenses. Mirrors. Optical Systems. Images and Pupils. Aberrations.
Lecture 2: Geometrical Optics Outline 1 Geometrical Approximation 2 Lenses 3 Mirrors 4 Optical Systems 5 Images and Pupils 6 Aberrations Christoph U. Keller, Leiden Observatory, keller@strw.leidenuniv.nl
More informationStudio Optics. Department of Physics Fall 2006
Studio Optics Department of Physics Fall 2006 Studio Optics Welcome to Studio Optics. The purpose of Studio Optics is two-fold: 1. To teach optics in a phenomenological manner. The bulk of our understanding
More informationSPIE Volume 472 PRECISION OPTICAL GLASSWORKING. A manual for the manufacture, W. Zschommler. Glasbearbeitung (Werkkiinde fur den Feinoptiker)
SPIE Volume 472 PRECISION OPTICAL GLASSWORKING A manual for the manufacture, testing and design of precision optical components and the training of optical craftsmen W. Zschommler English translation by
More informationImage Formation. Light from distant things. Geometrical optics. Pinhole camera. Chapter 36
Light from distant things Chapter 36 We learn about a distant thing from the light it generates or redirects. The lenses in our eyes create images of objects our brains can process. This chapter concerns
More informationAdaptive optics for laser-based manufacturing processes
Adaptive optics for laser-based manufacturing processes Rainer Beck 1, Jon Parry 1, Rhys Carrington 1,William MacPherson 1, Andrew Waddie 1, Derryck Reid 1, Nick Weston 2, Jon Shephard 1, Duncan Hand 1
More informationLecture 4: Geometrical Optics 2. Optical Systems. Images and Pupils. Rays. Wavefronts. Aberrations. Outline
Lecture 4: Geometrical Optics 2 Outline 1 Optical Systems 2 Images and Pupils 3 Rays 4 Wavefronts 5 Aberrations Christoph U. Keller, Leiden University, keller@strw.leidenuniv.nl Lecture 4: Geometrical
More informationChapters 1 & 2. Definitions and applications Conceptual basis of photogrammetric processing
Chapters 1 & 2 Chapter 1: Photogrammetry Definitions and applications Conceptual basis of photogrammetric processing Transition from two-dimensional imagery to three-dimensional information Automation
More informationSome of the important topics needed to be addressed in a successful lens design project (R.R. Shannon: The Art and Science of Optical Design)
Lens design Some of the important topics needed to be addressed in a successful lens design project (R.R. Shannon: The Art and Science of Optical Design) Focal length (f) Field angle or field size F/number
More informationLecture PowerPoint. Chapter 25 Physics: Principles with Applications, 6 th edition Giancoli
Lecture PowerPoint Chapter 25 Physics: Principles with Applications, 6 th edition Giancoli 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the
More informationOptical Components for Laser Applications. Günter Toesko - Laserseminar BLZ im Dezember
Günter Toesko - Laserseminar BLZ im Dezember 2009 1 Aberrations An optical aberration is a distortion in the image formed by an optical system compared to the original. It can arise for a number of reasons
More informationStereoscopic Hologram
Stereoscopic Hologram Joonku Hahn Kyungpook National University Outline: 1. Introduction - Basic structure of holographic display - Wigner distribution function 2. Design of Stereoscopic Hologram - Optical
More information3.0 Alignment Equipment and Diagnostic Tools:
3.0 Alignment Equipment and Diagnostic Tools: Alignment equipment The alignment telescope and its use The laser autostigmatic cube (LACI) interferometer A pin -- and how to find the center of curvature
More informationImaging Systems Laboratory II. Laboratory 8: The Michelson Interferometer / Diffraction April 30 & May 02, 2002
1051-232 Imaging Systems Laboratory II Laboratory 8: The Michelson Interferometer / Diffraction April 30 & May 02, 2002 Abstract. In the last lab, you saw that coherent light from two different locations
More informationCH. 23 Mirrors and Lenses HW# 6, 7, 9, 11, 13, 21, 25, 31, 33, 35
CH. 23 Mirrors and Lenses HW# 6, 7, 9, 11, 13, 21, 25, 31, 33, 35 Mirrors Rays of light reflect off of mirrors, and where the reflected rays either intersect or appear to originate from, will be the location
More informationDepartment of Physics & Astronomy Undergraduate Labs. Thin Lenses
Thin Lenses Reflection and Refraction When light passes from one medium to another, part of the light is reflected and the rest is transmitted. Light rays that are transmitted undergo refraction (bending)
More informationOptical System Design
Phys 531 Lecture 12 14 October 2004 Optical System Design Last time: Surveyed examples of optical systems Today, discuss system design Lens design = course of its own (not taught by me!) Try to give some
More informationCollimation Tester Instructions
Description Use shear-plate collimation testers to examine and adjust the collimation of laser light, or to measure the wavefront curvature and divergence/convergence magnitude of large-radius optical
More information25 cm. 60 cm. 50 cm. 40 cm.
Geometrical Optics 7. The image formed by a plane mirror is: (a) Real. (b) Virtual. (c) Erect and of equal size. (d) Laterally inverted. (e) B, c, and d. (f) A, b and c. 8. A real image is that: (a) Which
More informationUNIVERSITY OF NAIROBI COLLEGE OF EDUCATION AND EXTERNAL STUDIES
UNIVERSITY OF NAIROBI COLLEGE OF EDUCATION AND EXTERNAL STUDIES COURSE TITLE: BED (SCIENCE) UNIT TITLE: WAVES AND OPTICS UNIT CODE: SPH 103 UNIT AUTHOR: PROF. R.O. GENGA DEPARTMENT OF PHYSICS UNIVERSITY
More informationLens Design I. Lecture 5: Advanced handling I Herbert Gross. Summer term
Lens Design I Lecture 5: Advanced handling I 2018-05-17 Herbert Gross Summer term 2018 www.iap.uni-jena.de 2 Preliminary Schedule - Lens Design I 2018 1 12.04. Basics 2 19.04. Properties of optical systems
More informationTutorial Zemax 9: Physical optical modelling I
Tutorial Zemax 9: Physical optical modelling I 2012-11-04 9 Physical optical modelling I 1 9.1 Gaussian Beams... 1 9.2 Physical Beam Propagation... 3 9.3 Polarization... 7 9.4 Polarization II... 11 9 Physical
More informationExam Preparation Guide Geometrical optics (TN3313)
Exam Preparation Guide Geometrical optics (TN3313) Lectures: September - December 2001 Version of 21.12.2001 When preparing for the exam, check on Blackboard for a possible newer version of this guide.
More informationChapter Ray and Wave Optics
109 Chapter Ray and Wave Optics 1. An astronomical telescope has a large aperture to [2002] reduce spherical aberration have high resolution increase span of observation have low dispersion. 2. If two
More informationAberrations of a lens
Aberrations of a lens 1. What are aberrations? A lens made of a uniform glass with spherical surfaces cannot form perfect images. Spherical aberration is a prominent image defect for a point source on
More informationVibration-compensated interferometer for measuring cryogenic mirrors
Vibration-compensated interferometer for measuring cryogenic mirrors Chunyu Zhao and James H. Burge Optical Sciences Center, University of Arizona, 1630 E. University Blvd, Tucson, AZ 85721 Abstract An
More informationGEOMETRICAL OPTICS Practical 1. Part I. BASIC ELEMENTS AND METHODS FOR CHARACTERIZATION OF OPTICAL SYSTEMS
GEOMETRICAL OPTICS Practical 1. Part I. BASIC ELEMENTS AND METHODS FOR CHARACTERIZATION OF OPTICAL SYSTEMS Equipment and accessories: an optical bench with a scale, an incandescent lamp, matte, a set of
More informationROCHESTER INSTITUTE OF TECHNOLOGY COURSE OUTLINE FORM COLLEGE OF SCIENCE. Chester F. Carlson Center for Imaging Science
ROCHESTER INSTITUTE OF TECHNOLOGY COURSE OUTLINE FORM COLLEGE OF SCIENCE Chester F. Carlson Center for Imaging Science NEW COURSE: COS-IMGS-321 Geometric Optics 1.0 Course Designations and Approvals Required
More informationMULTI-ELEMENT LENSES. Don t see exactly what you are looking for? CVI Laser Optics specializes in prototype to volume production manufacturing!
MULTI-ELEMENT LENSES Mirrors Multi-element lenses are an ideal solution for applications requiring specialized performance and/or a high degree of aberration correction. Our line of multi-element lenses
More informationUsing Stock Optics. ECE 5616 Curtis
Using Stock Optics What shape to use X & Y parameters Please use achromatics Please use camera lens Please use 4F imaging systems Others things Data link Stock Optics Some comments Advantages Time and
More informationBig League Cryogenics and Vacuum The LHC at CERN
Big League Cryogenics and Vacuum The LHC at CERN A typical astronomical instrument must maintain about one cubic meter at a pressure of
More informationTesting Aspheric Lenses: New Approaches
Nasrin Ghanbari OPTI 521 - Synopsis of a published Paper November 5, 2012 Testing Aspheric Lenses: New Approaches by W. Osten, B. D orband, E. Garbusi, Ch. Pruss, and L. Seifert Published in 2010 Introduction
More information06SurfaceQuality.nb Optics James C. Wyant (2012) 1
06SurfaceQuality.nb Optics 513 - James C. Wyant (2012) 1 Surface Quality SQ-1 a) How is surface profile data obtained using the FECO interferometer? Your explanation should include diagrams with the appropriate
More informationContouring aspheric surfaces using two-wavelength phase-shifting interferometry
OPTICA ACTA, 1985, VOL. 32, NO. 12, 1455-1464 Contouring aspheric surfaces using two-wavelength phase-shifting interferometry KATHERINE CREATH, YEOU-YEN CHENG and JAMES C. WYANT University of Arizona,
More informationTOPICS Recap of PHYS110-1 lecture Physical Optics - 4 lectures EM spectrum and colour Light sources Interference and diffraction Polarization
TOPICS Recap of PHYS110-1 lecture Physical Optics - 4 lectures EM spectrum and colour Light sources Interference and diffraction Polarization Lens Aberrations - 3 lectures Spherical aberrations Coma, astigmatism,
More informationWeek IX: INTERFEROMETER EXPERIMENTS
Week IX: INTERFEROMETER EXPERIMENTS Notes on Adjusting the Michelson Interference Caution: Do not touch the mirrors or beam splitters they are front surface and difficult to clean without damaging them.
More informationSolution of Exercises Lecture Optical design with Zemax Part 6
2013-06-17 Prof. Herbert Gross Friedrich Schiller University Jena Institute of Applied Physics Albert-Einstein-Str 15 07745 Jena Solution of Exercises Lecture Optical design with Zemax Part 6 6 Illumination
More informationUse of Computer Generated Holograms for Testing Aspheric Optics
Use of Computer Generated Holograms for Testing Aspheric Optics James H. Burge and James C. Wyant Optical Sciences Center, University of Arizona, Tucson, AZ 85721 http://www.optics.arizona.edu/jcwyant,
More informationName: Laser and Optical Technology/Technician
Name: Laser and Optical Technology/Technician Directions: Evaluate the student by entering the appropriate number to indicate the degree of competency achieved. Rating Scale (0-6): 0 No Exposure no experience/knowledge
More informationLens Design I. Lecture 3: Properties of optical systems II Herbert Gross. Summer term
Lens Design I Lecture 3: Properties of optical systems II 205-04-8 Herbert Gross Summer term 206 www.iap.uni-jena.de 2 Preliminary Schedule 04.04. Basics 2.04. Properties of optical systrems I 3 8.04.
More informationMirrors and Lenses. Images can be formed by reflection from mirrors. Images can be formed by refraction through lenses.
Mirrors and Lenses Images can be formed by reflection from mirrors. Images can be formed by refraction through lenses. Notation for Mirrors and Lenses The object distance is the distance from the object
More informationChapter 3. Introduction to Zemax. 3.1 Introduction. 3.2 Zemax
Chapter 3 Introduction to Zemax 3.1 Introduction Ray tracing is practical only for paraxial analysis. Computing aberrations and diffraction effects are time consuming. Optical Designers need some popular
More informationCh 24. Geometric Optics
text concept Ch 24. Geometric Optics Fig. 24 3 A point source of light P and its image P, in a plane mirror. Angle of incidence =angle of reflection. text. Fig. 24 4 The blue dashed line through object
More informationAstro 500 A500/L-20 1
Astro 500 1 Lecture Outline Spectroscopy from a 3D Perspective ü Basics of spectroscopy and spectrographs ü Fundamental challenges of sampling the data cube Approaches and example of available instruments
More informationExam 4. Name: Class: Date: Multiple Choice Identify the choice that best completes the statement or answers the question.
Name: Class: Date: Exam 4 Multiple Choice Identify the choice that best completes the statement or answers the question. 1. Mirages are a result of which physical phenomena a. interference c. reflection
More informationVery short introduction to light microscopy and digital imaging
Very short introduction to light microscopy and digital imaging Hernan G. Garcia August 1, 2005 1 Light Microscopy Basics In this section we will briefly describe the basic principles of operation and
More informationCopyright 2004 Society of Photo Instrumentation Engineers.
Copyright 2004 Society of Photo Instrumentation Engineers. This paper was published in SPIE Proceedings, Volume 5160 and is made available as an electronic reprint with permission of SPIE. One print or
More informationPHYS 3153 Methods of Experimental Physics II O2. Applications of Interferometry
Purpose PHYS 3153 Methods of Experimental Physics II O2. Applications of Interferometry In this experiment, you will study the principles and applications of interferometry. Equipment and components PASCO
More informationOpti 415/515. Introduction to Optical Systems. Copyright 2009, William P. Kuhn
Opti 415/515 Introduction to Optical Systems 1 Optical Systems Manipulate light to form an image on a detector. Point source microscope Hubble telescope (NASA) 2 Fundamental System Requirements Application
More informationMetrology and Sensing
Metrology and Sensing Lecture 10: Holography 2017-12-21 Herbert Gross Winter term 2017 www.iap.uni-jena.de 2 Preliminary Schedule No Date Subject Detailed Content 1 19.10. Introduction Introduction, optical
More informationAverage: Standard Deviation: Max: 99 Min: 40
1 st Midterm Exam Average: 83.1 Standard Deviation: 12.0 Max: 99 Min: 40 Please contact me to fix an appointment, if you took less than 65. Chapter 33 Lenses and Op/cal Instruments Units of Chapter 33
More informationUSE OF COMPUTER- GENERATED HOLOGRAMS IN OPTICAL TESTING
14 USE OF COMPUTER- GENERATED HOLOGRAMS IN OPTICAL TESTING Katherine Creath College of Optical Sciences University of Arizona Tucson, Arizona Optineering Tucson, Arizona James C. Wyant College of Optical
More informationDr. Todd Satogata (ODU/Jefferson Lab) Monday, April
University Physics 227N/232N Mirrors and Lenses Homework Optics 2 due Friday AM Quiz Friday Optional review session next Monday (Apr 28) Bring Homework Notebooks to Final for Grading Dr. Todd Satogata
More informationOptical Signal Processing
Optical Signal Processing ANTHONY VANDERLUGT North Carolina State University Raleigh, North Carolina A Wiley-Interscience Publication John Wiley & Sons, Inc. New York / Chichester / Brisbane / Toronto
More informationGerhard K. Ackermann and Jurgen Eichler. Holography. A Practical Approach BICENTENNIAL. WILEY-VCH Verlag GmbH & Co. KGaA
Gerhard K. Ackermann and Jurgen Eichler Holography A Practical Approach BICENTENNIAL BICENTENNIAL WILEY-VCH Verlag GmbH & Co. KGaA Contents Preface XVII Part 1 Fundamentals of Holography 1 1 Introduction
More informationECEN 4606, UNDERGRADUATE OPTICS LAB
ECEN 4606, UNDERGRADUATE OPTICS LAB Lab 2: Imaging 1 the Telescope Original Version: Prof. McLeod SUMMARY: In this lab you will become familiar with the use of one or more lenses to create images of distant
More informationMODULAR ADAPTIVE OPTICS TESTBED FOR THE NPOI
MODULAR ADAPTIVE OPTICS TESTBED FOR THE NPOI Jonathan R. Andrews, Ty Martinez, Christopher C. Wilcox, Sergio R. Restaino Naval Research Laboratory, Remote Sensing Division, Code 7216, 4555 Overlook Ave
More informationECEN. Spectroscopy. Lab 8. copy. constituents HOMEWORK PR. Figure. 1. Layout of. of the
ECEN 4606 Lab 8 Spectroscopy SUMMARY: ROBLEM 1: Pedrotti 3 12-10. In this lab, you will design, build and test an optical spectrum analyzer and use it for both absorption and emission spectroscopy. The
More informationWave optics and interferometry
11b, 2013, lab 7 Wave optics and interferometry Note: The optical surfaces used in this experiment are delicate. Please do not touch any of the optic surfaces to avoid scratches and fingerprints. Please
More informationPHYS 1020 LAB 7: LENSES AND OPTICS. Pre-Lab
PHYS 1020 LAB 7: LENSES AND OPTICS Note: Print and complete the separate pre-lab assignment BEFORE the lab. Hand it in at the start of the lab. Pre-Lab Start by reading the entire prelab and lab write-up.
More informationPhysics 2020 Lab 9 Wave Interference
Physics 2020 Lab 9 Wave Interference Name Section Tues Wed Thu 8am 10am 12pm 2pm 4pm Introduction Consider the four pictures shown below, showing pure yellow lights shining toward a screen. In pictures
More informationOptical Systems: Pinhole Camera Pinhole camera: simple hole in a box: Called Camera Obscura Aristotle discussed, Al-Hazen analyzed in Book of Optics
Optical Systems: Pinhole Camera Pinhole camera: simple hole in a box: Called Camera Obscura Aristotle discussed, Al-Hazen analyzed in Book of Optics 1011CE Restricts rays: acts as a single lens: inverts
More informationOptical Engineering 421/521 Sample Questions for Midterm 1
Optical Engineering 421/521 Sample Questions for Midterm 1 Short answer 1.) Sketch a pechan prism. Name a possible application of this prism., write the mirror matrix for this prism (or any other common
More informationLecture 3: Geometrical Optics 1. Spherical Waves. From Waves to Rays. Lenses. Chromatic Aberrations. Mirrors. Outline
Lecture 3: Geometrical Optics 1 Outline 1 Spherical Waves 2 From Waves to Rays 3 Lenses 4 Chromatic Aberrations 5 Mirrors Christoph U. Keller, Leiden Observatory, keller@strw.leidenuniv.nl Lecture 3: Geometrical
More informationWill contain image distance after raytrace Will contain image height after raytrace
Name: LASR 51 Final Exam May 29, 2002 Answer all questions. Module numbers are for guidance, some material is from class handouts. Exam ends at 8:20 pm. Ynu Raytracing The first questions refer to the
More information12:40-2:40 3:00-4:00 PM
Physics 294H l Professor: Joey Huston l email:huston@msu.edu l office: BPS3230 l Homework will be with Mastering Physics (and an average of 1 hand-written problem per week) Help-room hours: 12:40-2:40
More informationDepartment of Mechanical and Aerospace Engineering, Princeton University Department of Astrophysical Sciences, Princeton University ABSTRACT
Phase and Amplitude Control Ability using Spatial Light Modulators and Zero Path Length Difference Michelson Interferometer Michael G. Littman, Michael Carr, Jim Leighton, Ezekiel Burke, David Spergel
More information