ADVANCED ELECTRICAL AND ELECTRONICS ENGINEERING 2

博士前期課程理工学研究科 - 理工学専攻

MSGR7080

コース情報

担当教員: 富樫理恵

単位数: 2

年度: 2024

学期: 秋学期

曜限: 木2

形式: 対面授業

レベル: 500

アクティブラーニング: あり

他学部履修: 可

評価方法

出席状況

10%

リアクションペーパー

30%

レポート

60%

その他

詳細情報

概要

In this course, we study basic and advanced knowledge of semiconductor devices. In particular, we will learn about optical devices as the basis of optoelectronics. We begin with a discussion of some basic properties of semiconductors such as semiconductor materials, energy bands, carrier concentrations, and various transport phenomena. We then discuss optical devices such as LEDs, lasers, photodetectors and solar Cells. Finally, we consider the crystal growth and epitaxy of semiconductors. In order to cultivate the curriculum policy of "Students will take courses offered by the Electrical and Electronic Engineering Division to acquire expertise in semiconductors disciplines.", Study to acquire specialized knowledge of semiconductor devices in the field of electrical and electronic engineering. A weekly reaction paper (quiz) will be given. Downloading lecture materials and submitting reports will be performed via Moodle. Moodle course name and registration key will be posted on the Loyola notice board before your first class.

目標

The objective of the course is to understand the basic knowledge of semiconductor devices such as semiconductor physics, semiconductor devices, and semiconductor technology. The aim is to acquire the diploma policy of "The ability to acquire expertise that enables one to play an active role at the forefront of Electrical and Electronics Engineering and associated fields as well as to develop new technologies and explore new fields", by acquiring specialized knowledge of semiconductor devices in the field of electrical and electronic engineering.

授業外の学習

Students are requested to prepare for the lecture based on the lecture schedule using the textbook {S. M. Sze, M. K. Lee: Semiconductor Devices Physics and Technology 3rd Eds}. (100 minutes/times) Students are requested to review the contents of the class and the quiz. (100 minutes/times)

所要時間: 200 minutes/times

スケジュール

Introduction (Basic properties of semiconductors, Optoelectronic background of optical devices)
Light emission and absorption by semiconductors (Electronic transitions, Electrical properties of semiconductors)
Light emission and absorption by semiconductors (Heterostructure and carrier injection, Current-voltage characteristics of a diode)
Light emission and absorption by semiconductors (Compound semiconductor and energy gap)
Light-emitting diode (LED), Basic structure of semiconductor lasers
Wavelengths and equations for semiconductor lasers, Multimode lasers
Single-mode lasers, VCSEL, Quantum cascade lasers, Various lasers
Optical modulation, Direct modulation of semiconductor lasers, Direct modulation of light-emitting diodes
Photodetectors, pin photodiodes, APD
Solar cells, Imaging devices, Display devices
Optical fiber, Applications of optical devices
Crystal growth and epitaxy, Film formation
Lithography and Etching, Impurity doping
Crystal growth of semiconductor using computational science

教科書

As the main textbook, "S. M. Sze, M. K. Lee: Semiconductor Devices Physics and Technology 3rd Eds." is used.

Semiconductor Devices Physics and Technology 3rd Eds.

著者: S. M. Sze, M. K. Lee

参考書

光デバイス / Optical devices

著者: 末松安晴 / Yasuharu Suematsu

出版社: コロナ社・2011 / Corona Co. ・2011