科目名
Course Title
Physics of Electron Systems [電子系物理工学 E]
講義題目
Subtitle
責任教員
Instructor-in-charge
松田 理 (工学研究院応用物理学部門)
Osamu MATSUDA [Division of Applied Physics] Email: omatsuda@eng.hokudai.ac.jp
担当教員
Other instructors
科目種別
Class specification
工学院専門科目 Engineering
開講年度
Academic year
2011
開講学期
Semester
1 学期
Summer
時間割番号
e3 Course No.
3803
授業形態
Class type
対象学科・クラス
Eligible department/class
講義
Lecture
単位数
Credits
補足事項
Other information
2
対象年次
Expected students
MC1 ～ DC3
キーワード Keywords:
light propagation, electron-photon interaction, electronic band structure and optical properties
授業の目標 Objectives:
The aim of this course is to provide basic understandings of the physics in the light-matter interaction. The main focus will be on the
light propagation in solids and the optical properties of the solids based on the electronic band structure. This course will provide the
attendee with the following essential understandings on the optical spectroscopy and the nature of matter:
(1) Light propagation in isotropic and anisotropic medium.
(2) Electron excitation by light irradiation.
(3) Optical properties of metals, dielectrics, and semiconductors.
到達目標 Goals:
授業計画 Outline:
1. Light propagation and scattering
- Maxwell’s equation in solids
- Reflectance and transmittance
- Anisotropy
- Optical activity
- Light scattering by inhomogeneity
2. Light-matter interaction
- Lorentz oscillator
- Drude model
- Semi-classical treatment of electron-light interaction
- Electronic band structure and optical transition
3. Optical spectra of solids
- Metals
- Dielectrics
- Semiconductors
準備学習（予習・復習）等の内容と分量 Homework:
成績評価の基準と方法 Grading: based on attendance (20%), reports (30%) and final report (50%)
テキスト・教科書 Textbooks: Handout is distributed. The referential textbooks are introduced at the beginning of lecture. Here
are some examples: “Optical Properties of Solids, Fredelick Wooten, Academic Press, 1972, “Physical Properties of Crystals”, J. F. Nye,
Oxford University Press, 1995.
講義指定図書 References:
参照ホームページ Website:
受講条件 Pre-requisite: basic electromagnetism, quantum mechanics, solid state physics, and mathematics