シラバス参照

講義概要/Course Information
2020/04/28 現在

科目基礎情報/General Information
授業科目名
/Course title (Japanese)
Advanced Engineering Science Ⅱ(Photonics and Opto-electronics)(学域)
英文授業科目名
/Course title (English)
Advanced Engineering Science Ⅱ(Photonics and Opto-electronics)
科目番号
/Code
INT002k INT002m INT002n INT002p
開講年度
/Academic year
2020年度 開講年次
/Year offered
3/4
開講学期
/Semester(s) offered
前学期 開講コース・課程
/Faculty offering the course
情報理工学域
授業の方法
/Teaching method
講義 単位数
/Credits
2
科目区分
/Category
専門科目
開講学科・専攻
/Cluster/Department
Ⅲ類
担当教員名
/Lecturer(s)
上野 芳康
居室
/Office
Room no. 313, Building no. West-2 (W2-313).
公開E-Mail
/e-mail
uenoy@ultrafast.ee.uec.ac.jp
授業関連Webページ
/Course website
http://www.ultrafast.ee.uec.ac.jp/ueno-classes.html
更新日
/Last updated
2020/03/16 18:16:14 更新状況
/Update status
公開中
/now open to public
講義情報/Course Description
主題および
達成目標
/Topic and goals
Modern photonics and electronics have been deeply spread to both academy and industry of our Real World, without country borders. It is because photonics and opto-electronics have realized terabit-per-second network infrastructures, optical-disk memories (DVD&CD's), compact and accurate laser diodes (from infrared to blue), and flat displays, in industry uses and home uses. In these science and technology, particle-based photonic properties of representative materials are almost always fully combined with their wave-based optical properties, in "bright" manners.
In this course, typically 15 weeks, participants are expected to study and understand the scientific fundamentals of these photonic technology, and also to develop interests to on-going, long-term (i.e. large-scale) R&D activities in our world.
前もって履修
しておくべき科目
/Prerequisites
fundamentals of electro-magnetic waves (propagating in speed of light).
fundamentals of electronics such as basic diodes and transistors.
前もって履修しておくこ
とが望ましい科目
/Recommended prerequisites and preparation
fundamentals of quantum mechanics (particles and waves).
fundamentals of crystalline materials and their basic, electronic properties.
教科書等
/Course textbooks and materials
1) Saleh and Teich, Fundamentals of Photonics, 2nd edition, Wiley, 2007.
2) Amnon Yariv and Pochi Yeh, Photonics: Optical Electronics in Modern Communications, 6th edition, Oxford, 2006.
授業内容と
その進め方
/Course outline and weekly schedule
1st-5th weeks:
(1) Areas of science and technology where photonics and opto-electronics play particularly important roles in our world.
(2) Representative photonic devices and materials that many of us must use and rely on, in these areas of science and technology.
(3) Fundamental properties of silicon and other few important types of semiconductor crystals. Basics of direct transition (for light-emitting diodes and lasers), in contrast to indirect transition (for sensors and solar cells, for example).
Then, basics of quantum-particle-based properties such as conservation laws in unit of electron-volts, in contrast to quantum-wave-based properties. (All of these are well understood and designed in all LED's, laser diodes, optical sensors, solar cells, for example.)

6th-10th weeks:
(4) General relationship from electrons to electron waves. That from lightwaves (em waves) to photons.
(5) Device's internal structures (of light-emitting diodes and light-absorbing sensors), and their working principles.
(6) Energy conversion law and general limits in energy-conversion efficiency, from electronic energy to photonic energy. That in the opposite direction, that is, from photonic energy to electronic energy.

11th-15th weeks:
(7) advanced groups of lasers, consisting of cavities and waveguides, which are deeply and broadly used in advanced systems such as network infrastructures (terabit per second), optical-disk memories (DVD&CD's), compact and accurate laser diodes (from infrared to blue).
(8) high-density light energy in time and 3D-space dimensions (total four dimensions), that is rather simply generated by laser oscillators in particular. (Several kinds of experimental research are going on in our UEC campus, as well.)
実務経験を活かした
授業内容
(実務経験内容も含む)
/Course content utilizing practical experience
授業時間外の学習
(予習・復習等)
/Preparation and review outside class
Both personal and group studies, efficiently before and after each weekly classroom, are encouraged.
成績評価方法
および評価基準
(最低達成基準を含む)
/Evaluation and grading
Understanding level of each student is evaluated, in the final test in the end of the 15-week course.
オフィスアワー:
授業相談
/Office hours
6th period, Tuesdays. (Notify me Ueno by email, when I was not available in the period of tuesday.)
学生へのメッセージ
/Message for students
The number of participants to this course will be around 10, too, and, could be slightly less. So, this lecturer Ueno welcomes questions from participants sometimes in the middle of 90 minutes, rather than after it. Your asking good questions to lecturer inspires the other participants, too, basically.
その他
/Others
Lecturer Ueno's international activities:
http://www.ultrafast.ee.uec.ac.jp/ueno-cv.html
キーワード
/Keyword(s)
photonics, opto-electronics, quantum mechanics, electro-magnetic waves, light-emitting diodes (spontaneous emission), lasers (stimulated emission), optical sensors, solar batteries, silicon, galium arsenide, semiconductor.