1M989000
,7M540000
1 Epitaxial Semiconductor Materials
This course deals with the story of the development of III-V nitride semiconductors. You will also learn the epitaxial growth
techniques, physical and device characteristics of III-V nitride semiconductors. (Lectures in turn)
You are expected to acquire the basic concepts of epitaxial growth and thin film technologies of III-V nitride semiconductors.
(Lectures in turn)
- Be able to explain GaN growth physics and film characterizations
- Be able to explain InGaN growth physics and film characterizations
- Be able to explain the growth of GaN-based light emitting device structures and device characterizations
|
Class schedule |
HW assignments (Including preparation and review of the class.) |
Amount of Time Required |
1. |
Guidance & background of GaN |
No need preparation |
0minutes |
2. |
GaN growth (1) MOCVD, AlN buffer |
Prepare your lecture |
210minutes |
3. |
GaN growth (2) GaN buffer layer |
Prepare your lecture |
210minutes |
4. |
n-GaN growth, p-GaN growth (1) EB irradiation |
Prepare your lecture |
210minutes |
5. |
p-GaN growth (1) Thermal annealing |
Prepare your lecture |
210minutes |
6. |
n-GaN growth |
Prepare your lecture |
210minutes |
7. |
p-GaN growth (2) Thermal annealing |
Prepare your lecture |
210minutes |
8. |
p-GaN growth (3) Hole compensation mechanism1 |
Prepare your lecture |
210minutes |
9. |
p-GaN growth (4) Hole compensation mechanism2 |
Prepare your lecture |
210minutes |
10. |
InGaN growth (1) InGaN on GaN templates |
Prepare your lecture |
210minutes |
11. |
InGaN growth (2) InGaN SLs InGaN LEDs (1) Bulk InGaN/AlGaN
|
Prepare your lecture |
210minutes |
12. |
InGaN LEDs (2) Co-doped InGaN/AlGaN InGaN LEDs (3) InGaN QWs
|
Prepare your lecture |
210minutes |
13. |
InGaN LEDs (4) White LEDs, and emission mechanisms |
Prepare your lecture |
210minutes |
14. |
Final presentaion |
Prepare your presentation file related to epitaxial semiconductors. |
210minutes |
Total. |
- |
- |
2730minutes |
Relationship between 'Goals and Objectives' and 'Course Outcomes'
|
Goals and Objective |
Total. |
1. |
33% |
33% |
2. |
33% |
33% |
3. |
34% |
34% |
Total. |
100% |
- |
Evaluation method and criteria
Evaluation method:
A 6th absence may constitute a failing grade in this course.
Lecture(s) in turn 50%, and final presentation 50%. You must score at least 60 points or higher out of 100 to pass.
Criteria:
If you are able to explain a summary, and an important achievement of a topic of this course, you will get 60 points out of
100 to pass.
Feedback on exams, assignments, etc.
ways of feedback |
specific contents about "Other" |
Feedback in the class |
|
Textbooks and reference materials
Course materials will be distributed in class.
(Shuji Nakamura, and Gerhard. Fasol, “The Blue Laser Diode”, Springer, 1997.)
Supplemental materials will be announced or distributed in class.
Electronic or electric engineering graduates are expected.
Office hours and How to contact professors for questions
- -Face-to-Face learning: 12:30-13:20 (Lunch break) on Monday @ #09L25 Research Bldg. at TOYOSU campus
-Distance learning: 17:00-18:00 on Monday @Zoom: https://shibaura-it.zoom.us/j/95148524304
You can ask or contact me by e-mail in advance.
email: ishkwh@sic.shibaura-it.ac.jp
Non-regionally-oriented course
Development of social and professional independence
- Non-social and professional independence development course
Most classes are interactive
Course by professor with work experience
Work experience |
Work experience and relevance to the course content if applicable |
N/A |
N/A |
Education related SDGs:the Sustainable Development Goals
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Sat Sep 09 05:54:43 JST 2023