Syllabus data

Teacher name : YAMAGUCHI Tomohiro
Academic year
2025Year
Term
Second Semester
Course title
Advanced Semiconductor Photonic Devices
Class type
Lecture
Course title (ENG)
Advanced Semiconductor Photonic Devices
Class code・Class name・Teaching forms
Z0800002 Advanced Semiconductor Photonic Devices
Instructor
YAMAGUCHI Tomohiro
Credits
2.0Credits
Day and Time
Fri.5Period
Campus
Hachioji Campus
Location
04-255講義室

Relationship between diploma policies and this course
A) A high degree of specialized expertise 100%
B) The skills to use science and technology 0%
C) The ability to conduct research independently, knowledge pertaining to society and occupations, and sense of ethics required of engineers and researchers 0%
D) Creative skills in specific areas of specialization 0%
Goals and objectives
In the class of “Advanced Semiconductor Photonic Devices”, we will focus on the fundamental physics, such as semiconductor materials, their junctions and the quantum effects produced by heterojunctions, for understanding the principle of photonic device operations. We also focus on the crystal growth, characterization and device process technologies which are producing attractive photonic devices at present.
Prerequisites
Students need the basics on semiconductor.
Method Using AL・ICT
Flip Teaching/Presentation/Interactive classes using ICT

Class schedule
1. Introduction of advanced semiconductor photonic devices
2. Semiconductor optoelectronic devices and its wavelength range
3. Crystal Structures and Physics for Crystals
4. Energy level, Band structure
5. Basic semiconductor materials
  Si, Compound semiconductors, Wide bandgap semiconductors
6. Junction of Semiconductor-1
  Homojunction, Heterojunction, Band arraignment, Band offset
7. Junction of Semiconductor-2
  Metal-semiconductor junction, Insulator-semiconductor junction
8. Quantum effect
9. Crystal growth
10. Characterization methods for crystal structures, electrical transport properties, optical absorptions and optical emissions
11. Process technology in semiconductor device
12. Semiconductor optoelectronic devices-1
  LED, solar cell
13. Semiconductor optoelectronic devices-2
  Laser
14. Subject survey
15. Reviewing of class

Evaluation
Evaluation will be carried out by the use of report (50%), which is for judging your understanding level, and your attendance (50%).
Feedback for students
Feedback will be given through reviewing to the homework and presentations, which are carried out by students.

Textbooks
Not applicable
Reference materials
原書6版 光エレクトロニクス 展開編 ヤリーヴ—イェー著 (in Japanese)
半導体デバイスの基礎 B.L. アンダーソン、R.L. アンダーソン著 (in Japanese)
電子デバイスの基礎と応用 長谷川文夫、本田徹著 (in Japanese)

Office hours and How to contact teachers for questions
Friday 14:10〜16:00(Hachioji campus, Room.5-804)
Please contact by email, if you would like to schedule another time to meet with me.
E-mail adress:ct13354@ns.kogakuin.ac.jp(in half-width character)
Message for students
Based on the number of participants and so on, the contents and methods of the lecture may be changed.

Course by professor with work experience
Not applicable
Work experience and relevance to the course content if applicable

Teaching profession course
Not applicable