| Relevance of Course Objectives and Core Learning Outcomes(%) |
Teaching and Assessment Methods for Course Objectives |
| Course Objectives |
Competency Indicators |
Ratio(%) |
Teaching Methods |
Assessment Methods |
| Introduction to solid state electronic material and optoelectronic characteristics for the basics in semiconductor devices. |
|
|
| Lecturing |
| Discussion |
| Exercises |
|
| Quiz |
| Assignment |
| Attendance |
|
| Course Content and Homework/Schedule/Tests Schedule |
| Week |
Course Content |
| Week 1 |
Crystal structures
|
| Week 2 |
Crystal structures |
| Week 3 |
Drude model |
| Week 4 |
Drude model |
| Week 5 |
Schrodinger equation |
| Week 6 |
Schrodinger equation |
| Week 7 |
Schrodinger equation |
| Week 8 |
Energy band and Carriers |
| Week 9 |
Energy band and Carriers |
| Week 10 |
Energy band and Carriers |
| Week 11 |
Phonons |
| Week 12 |
Phonons |
| Week 13 |
Semiconductors |
| Week 14 |
Semiconductors |
| Week 15 |
Semiconductors |
| Week 16 |
Photon-electron interactions |
| Week 17 |
Photon-electron interactions |
| Week 18 |
Photon-electron interactions |
|
| Evaluation |
平時成績 20%
期中考 40%
期末考 40% |
| Textbook & other References |
李雅明,”固態電子學,” 全華.
C. Kittel, “Introduction to Solid State Physics,” John Wiley & Sons
S.M. Sze, “Physics of Semiconductor Devices” John Wiley & Sons |
| Teaching Aids & Teacher's Website |
|
| Office Hours |
| 星期四下午2:00-4:00 |
| Sustainable Development Goals, SDGs |
| 04.Quality Education 08.Decent Work and Economic Growth 09.Industry, Innovation and Infrastructure | include experience courses:N |
|