Course title
半導体物性工学特論   [Selected Topics in Semiconductor Materials]
Course category courses for doctoral programs  Requirement   Credit 2 
Department   Year   Semester 1st 
Course type 1st  Course code 1080406
Instructor(s)
生嶋 健司   [IKUSHIMA Kenji]
Facility affiliation Faculty of Engineering Office   Email address

Course description
This lecture provides physical pictures and treatments of quantum phenomena in materials. Particularly, electron quantum transport and optical properties in low-dimensional semiconductors and atomic materials such as graphene.
Expected Learning
(1) To understand basic properties of semiconductors.
(2) To understand electron confinement by using band engineering
(3) To understand quantum phenomena in low-dimensional semiconductors
Course schedule
1. Introduction
2. Free electron model in metals
3. Dimensionality: 2D, 1D, 0D electron systems
4. Realized low-dimensional systems (1)
5. Realized low-dimensional systems (2)
6. Band structures and effective mass approximation
7. GaAs heterostructures and 2D electron systems
8. Quantum tunneling and transport (1)
9. Quantum tunneling and transport (2)
10. Topics: Single electron tunneling
11. Electron transport in magnetic fields
12. Topics: Quantum Hall effect
13. Electronic states in graphene (1)
14. Electronic states in graphene (2)
15. Summary
Prerequisites
Elementary quantum mechanics, Basic knowledge of solid state physics
Required Text(s) and Materials
References
The physics of low-dimensional semiconductors --- An introduction J. H. Davies
Electronic transport in mesoscopic systems, S. Datta
Quantum Transport --- Atom to Transistor, S. Datta
Assessment/Grading
Total score of several reports
Message from instructor(s)
Course keywords
Office hours
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
English
Last update
1/26/2022 12:58:34 PM