OPT-410 Advanced Optics
Instructor: Scott W. Teare, Professor of Electrical Engineering
Prerequisites: OPT-400
Catalog Description: Topics include image evaluation, wavefront propagation, mode analysis, interferometry, spectrometers, optical testing and dielectric coatings.
Reference Textbook: Optical Engineering Using MATLAB, Scott Teare.
Classroom: WORKC 117
Regular class: Tuesday & Thursday 1230-1345 hrs
Instructor's Overview: Course focuses on properties of wavefronts with a strong emphasis on interferometers.
Computational Skills: Students will be required to write computer programs in MATLAB to solve mathematical equations, plot and analyze results for assignments and projects.
Course evaluation:
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Assignments: |
50% |
|
Laboratory Reports: |
30% |
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Final Project Report: |
20% |
First Class: August 21, 2018
Last Class: December ?, 2018
Course Outline:
|
Week |
Topic |
Laboratory & Assignments |
|
1 |
Review of geometric optics and image evaluation |
|
|
2 |
Spectrometers, interference filters and color channels |
Gratings and prisms |
|
3 |
Introduction to interferometers |
|
|
4 |
Coherence and MSI |
MSI study |
|
5 |
Introduction to wave optics and propagation |
PROJECT Selection |
|
6 |
Zernike polynomials and mode analysis |
Zernike polynomials |
|
7 |
Interpretation of interferograms |
Analysis of Interferograms I |
|
8 |
Collimation and optical testing techniques and tricks |
Analysis of Interferograms II |
|
9 |
Mach-Zehnder Interferometer |
MZ Laboratory |
|
10 |
Twyman Green Interferometer |
TG Laboratory |
|
11 |
Schlieren Imaging |
SI Laboratory |
|
12 |
Build |
|
|
13 |
Build |
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14 |
Build |
|
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15 |
Build |
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|
16 |
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Updated: 8-10-16
All information subject to change.