- Lecture 1: Introduction and Overview [PDF]
- Lecture 2: Optical gain and laser cavities [PDF]
- Lecture 3: Semiconductor physics [PDF]
- Lecture 4: Heterojunction devices [PDF]
- Lecture 5: Quantum well [PDF]
- Lecture 6: Fermi's Golden Rule [PDF]
- Lecture 7: Absorption in bulk semiconductors [PDF]
- Lecture 8: Optical transition matrix element [PDF]
- Lecture 9: Gain in bulk semiconductors [PDF]
- Lecture 10: Absorption in quantum wells [PDF]
- Lecture 11: Gain in quantum wells [PDF]
- Lecture 12: Spontaneous emission [PDF]
- Lecture 13: Absorption and gain in quantum dots [PDF]
- Lecture 14: Excitons [PDF]
- Lecture 15: Optical waveguides [PDF]
- Lecture 16: Steady state LED and Laser characteristics - Part 1 [PDF]
- Lecture 17: Steady state LED and Laser characteristics - Part 2 [PDF]
- Lecture 18: LED modulation rate - small signal analysis [PDF]
- Lecture 19: Laser modulation rate - small signal analysis [PDF]
- Lecture 20: Strain engineering in light emitting devices [PDF]
- Lecture 21: Photodetectors [PDF]
- Lecture 22: Photodetector noise [PDF]
Last updated: April 25, 2019 2:44 PM