3. 강의목표
The course teaches the physical foundations underlying the operation of modern organic/inorganic optoelectronics device. Quantum mechanical foundations and semiconductor basics are briefly introduced. Special emphasis will be on a solid foundation for modern optoelectronic devices including light-emitting diodes (LEDs), Organic LEDs, stimulated emission devices such as laser diodes and optical amplifiers, photodetectors and image sensors, and various photovoltaic devices.
4. 강의선수/수강필수사항
Recommended (but not mandatory) prerequisites: quantum mechanics, materials physics
5. 성적평가
Midtermexam: 30%, Final exam: 40%, Homework: 10%, Termpaper presentation: 20% (This may be subject to change.)
6. 강의교재
| 도서명 |
저자명 |
출판사 |
출판년도 |
ISBN |
|
Optical properties of solids
|
M. Fox
|
|
0000
|
|
7. 참고문헌 및 자료
Optoelectronics and photonics – principles and practices, 2nd edition, S. O. Kasap
An introduction to theory and applications of quantum mechanics, Amnon Yariv
Physical Foundations of Solid-State devices, E. F. Schubert
Light-Emitting diodes 2nd edition, E. F. Schubert
8. 강의진도계획
1. Electromagnetic description of light (1st week)
2. Light-matter interactions (2nd week ~ 3rd week)
3. Introduction to quantum mechanics (4th week)
4. Perturbation theory (5th week)
5. Semiconductor basics (6th week)
6. Spontaneous emission: LED (7th ~ 9th week)
7. Stimulated emission (10th week)
8. Photodetectors (11th ~ 12th week)
9. Solar cells (12th ~ 13th week)
10. Photoelectrochemical cells for energy harvesting (14th week)
11. 장애학생에 대한 학습지원 사항
- 수강 관련: 문자 통역(청각), 교과목 보조(발달), 노트필기(전 유형) 등
- 시험 관련: 시험시간 연장(필요시 전 유형), 시험지 확대 복사(시각) 등
- 기타 추가 요청사항 발생 시 장애학생지원센터(279-2434)로 요청