ECE 559
Fundamentals of Optics for Electrical Engineers
Usually offered: Fall
Required course: No
Course Level
Graduate
Units
3
Prerequisite(s)
Graduate standing
Course Texts
- Robert Guenther, Modern Optics, 2nd Ed., John Wiley, 2015.
- Joseph W. Goodman, Introduction to Fourier Optics, 4th ed., McGraw Hill, 2018.
- Donald C. O’Shea, Elements of Modern Optical Design, John Wiley, 1985.
- John E. Greivenkamp, "Field Guide to: Geometrical Optics", SPIE Press 2004
- Class notes will also be available on the d2L website.
Schedule
150 minutes lecture per week
Course Description
Introduction to diffraction and 2-D Fourier optics, geometrical optics, paraxial systems, third-order aberrations, Gaussian beam propagation, optical resonators, polarization, temporal and spatial coherence, optical materials and nonlinear effects, and electro-optic modulators. Applications to holography, optical data storage, optical processing, neural nets, associative memory and optical interconnects.
May be convened with ECE 459. Graduate-level requirements include different exam questions and grading.
Assessment
- Homework: 8-10 assignments
- Project: 1 project
- Quizzes: 5 quizzes
- Exams: 2 midterm exams, 1 final exam
- Typical grading policy: 40% midterms, 20% final exam, 20% quizzes, 20% project
Syllabus Prepared By
Syllabus updated on 3/29/2022