学部・大学院区分
Undergraduate / Graduate

工・博前

時間割コード
Registration Code

2838503

科目区分【日本語】
Course Category

専門科目

科目区分【英語】
Course Category

Specialized Courses

科目名　【日本語】
Course Title

[G30]半導体デバイス工学特論

科目名　【英語】
Course Title

[G30]Semiconductor Devices

コースナンバリングコード
Course Numbering Code

担当教員　【日本語】
Instructor

PRISTOVSEK Markus ○

担当教員　【英語】
Instructor

PRISTOVSEK Markus ○

単位数
Credits

開講期・開講時間帯
Term / Day / Period

秋月曜日４時限
Fall Mon 4

授業形態
Course style

講義
Lecture

学科・専攻【日本語】
Department / Program

電気工学専攻　自動車工学プログラム　

学科・専攻【英語】
Department / Program

Department of Electrical Engineering Automotive Engineering Graduate Program

必修・選択【日本語】
Required / Selected

必修・選択【英語】
Required / Selected

授業の目的　【日本語】
Goals of the Course(JPN)

授業の目的　【英語】
Goals of the Course

Fundamental properties of semiconductors and physics of electron and photonic devices for micro- and nanoelectronics are studied. A guideline for novel device designs is mastered in this lecture.

到達目標　【日本語】
Objectives of the Course(JPN))

到達目標　【英語】
Objectives of the Course

To understand on a fundamental level semiconductors and electronic and photonic devices based on them to judge new developments and have a foundation if at some point deeper knowledge is needed.

バックグラウンドとなる科目【日本語】
Prerequisite Subjects

バックグラウンドとなる科目【英語】
Prerequisite Subjects

Fundamental physics
Thermodynamics
Quantum mechanics
Solid state physics

授業の内容【日本語】
Course Content

授業の内容【英語】
Course Content

Ch.1 Energy Bands and Carriers
Ch.2 Carrier Transport Phenomena
Ch.3 p-n Junction
Ch.4 Bipolar Transistor and Related Devices
Ch.5 MOS Capacitor and MOSFET
Ch.6 Advanced MOSFET and Related Devices
Ch.7 MESFET and Related Devices
Ch.8 Microwave Diodes; Quantum-Effect and Hot-Electron Devices
Ch.9 Light Emitting Diodes and Lasers
Ch.10 Photodetectors and Solar Cells
Ch.11 Crystal Growth and Epitaxy
Ch.12 Film Formation
Ch.13 Lithography and Etching
Ch.14 Impurity Doping
Ch.15 Integrated Devices

The lecture follows the textbook. Before each class, students should read textbook of each chapter. There will be one or two practicals or a short presentation by the student, depending on the number of participants.

成績評価の方法と基準【日本語】
Course Evaluation Method and Criteria

成績評価の方法と基準【英語】
Course Evaluation Method and Criteria

Reports, short presentations and practicals will contribute, each graded 0-100%)
S:100-90 points, A:89-80 points, B:79-70 points, C:69-60 points, F:<60 points
Students should understand the physics of semiconductors and devices.

履修条件・注意事項【日本語】
Course Prerequisites / Notes

履修条件・注意事項【英語】
Course Prerequisites / Notes

教科書【日本語】
Textbook

教科書【英語】
Textbook

Semiconductor Devices: Physics and Technology, International Student Version, Third Edition by S.M. Sze and M. K. Lee, Wiley, ISBN: 978-0-470-87367-0

参考書【日本語】
Reference Book

参考書【英語】
Reference Book

Physics of low dimensional semiconductors, J. H. Davis (Springer)
The Physics of Semiconductors, Marius Grundmann (Springer)
Basic Semiconductor Physics, C. Hamaguchi (Springer)

授業時間外学習の指示【日本語】
Self-directed Learning Outside Course Hours

授業時間外学習の指示【英語】
Self-directed Learning Outside Course Hours

There will be a short presentation after the winter break, and a report on that.

使用言語【英語】
Language used

English

使用言語【日本語】
Language used

授業開講形態等【日本語】
Lecture format, etc.

授業開講形態等【英語】
Lecture format, etc.

遠隔授業（オンデマンド型）で行う場合の追加措置【日本語】
Additional measures for remote class (on-demand class)

遠隔授業（オンデマンド型）で行う場合の追加措置【英語】
Additional measures for remote class (on-demand class)