Course title
G00200002
Introduction to Solid State Physics

 ISHIKAWA Hiroyasu

KOIKE Yoshikazu

PREMACHANDRA CHINTHAKA

HOMMA Tetsuya
and more...

YAMAGUCHI Masaki
Course description
In this course, students will learn the basic contents such as behavior of electron and structures of atoms and molecules, and improve understandings, in terms of electronic particulate and electron wave nature. Students will also learn the statistics for gas molecules, electron, and their differences. Furthermore, students will learn various crystals and behavior of electron in the crystals.
Purpose of class
The purpose of this class is to understand the electronic particulate and electron wave nature, the statistics for gas molecules, electron, and their differences, and to understand various crystals and behavior of electron in the crystals.
Goals and objectives
  1. To be able to explain qualitatively the nature of electron, structures of atoms and molecules, and the type of chemical bond.
  2. To be able to describe the Schroedinger equation, and explain qualitatively its meanings.
  3. To be able to explain the differences between quantum statistics and classical statistics.
  4. To be able to explain qualitatively the behavior of electron in crystalline and energy band.
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Report (1) Report (2) Intermediate examination Term-end examination Total.
1. 10% 0% 15% 25%
2. 10% 0% 15% 25%
3. 0% 10% 0% 15% 25%
4. 0% 10% 0% 15% 25%
Total. 20% 20% 30% 30% -
Evaluation method and criteria
The achievement of this course is evaluated by report (1), (2) (each score 20), intermediate examination (score 30), and term-end examination (score 30).
Students will pass this course by obtaining total score of 60 or higher.
Language
Japanese
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. ・Way of thinking for Electrophysics
・Unit system 		Preparation: Textbook, Chapter 1, pp.1-7 180minutes
2. ・Electron and its nature Preparation: Textbook, Chapter 2, pp.8-18 180minutes
3. ・Structures of atoms
・Bohr model
・Report (1): Subjects distribution 		Preparation: Textbook, Chapter 2, 18-34 180minutes
4. ・Quantum number
・Structures of molecules 		Preparation: Textbook, Chapter 2, pp.54-60 180minutes
5. ・Chemical bond Preparation: Textbook, Chapter 2, pp.54-60 180minutes
6. ・De Broglie wave and Schroedinger equation
・ Report (1) submission 		Preparation: Textbook, Chapter 2, pp.45-48 180minutes
7. Intermediate examination
・Coverage: Class schedule 1-6
Weight of class schedule 1-5: 50 %
Weight of class schedule 6: 50 % 		Review: Textbook, Chapter 1 and Chapter 2: pp.8-60 245minutes
8. ・Structures of crystalline 1: Plane direction, Crystal axis, and Miller indices Preparation: Textbook, Chapter 2, pp.70-78, Appendix: p.304 180minutes
9. ・Structures of crystalline 2: Type of crystal lattice Preparation: Textbook, Chapter 2, pp.70-76, Appendix: p.304 180minutes
10. ・Basics of statistical mechanics
・Report (2): Subjects distribution 		Preparation: Textbook, Chapter 2, pp.65-67, pp.84-86 180minutes
11. ・Vibration of the crystal lattice atom Preparation: Textbook, Chapter 2, pp.76-80 180minutes
12. ・Quantization of lattice vibration of the crystal lattice atom (Phonon) Reference Book 1, Chapter 8, pp.162-164 180minutes
13. ・Way of thinking for Energy Band、and Structures of Energy Band in crystalline
・Short test (4) (Structures of crystalline, Vibration of the crystal lattice atom, Energy Band)
・ Report (2) submission 		Preparation: Textbook, Chapter 2, pp.80-84 180minutes
14. Term-end examination
・Coverage: Class schedule 8-13
Weight of Class schedule 8-10: 50 %
Weight of Class schedule 11-13: 50 % 		Review: Textbook, Chapter 1 and Chapter 2: pp.60-86 245minutes
Total. - - 2650minutes
Feedback on exams, assignments, etc.
ways of feedback specific contents about "Other"
Feedback in the class
Textbooks and reference materials
・Textbook: Introduction to Electrophysics with Applications(in Japanese),
T. Shmomura, Corona Publishing Co., Ltd.
・Reference books
1. Solid State Physical Electronics (in Japanese), M. Aoki, Corona Publishing
Co., Ltd.
2. Introduction to Solid State Physics (in Japanese), Translated by R. Uno,
et. al., Maruzen Co., Ltd.
3. Basics of Solid State Physics (in Japanese), T. Tanaka, Asakura Pulishing
Co., Ltd.
Prerequisites
Students are required to complete Electric circuit 1・2, Electromagnetism 1・2.
Office hours and How to contact professors for questions
  • ・Omiya Campus: Bild. 4 , Room 4301
    ・E-mail are acceptable.
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Non-social and professional independence development course
Active-learning course
N/A
Course by professor with work experience
Work experience Work experience and relevance to the course content if applicable
N/A
Education related SDGs:the Sustainable Development Goals
  • 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Sat Mar 08 04:23:37 JST 2025