学部・大学院区分
Undergraduate / Graduate
理学部
時間割コード
Registration Code
0680190
科目区分
Course Category
専門科目
Specialized Courses
科目名 【日本語】
Course Title
[G30]物性物理学1
科目名 【英語】
Course Title
[G30]Condensed Matter Physics I
コースナンバリングコード
Course Numbering Code
担当教員 【日本語】
Instructor
GELLOZ Bernard Jacques ○
担当教員 【英語】
Instructor
GELLOZ Bernard Jacques ○
単位数
Credits
2
開講期・開講時間帯
Term / Day / Period
秋 月曜日 4時限
Fall Mon 4
授業形態
Course style
講義
Lecture
学科・専攻
Department / Program
G30 Physics
必修・選択
Compulsory / Selected
See the “Course List and Graduation Requirements for your program for your enrollment year.


授業の目的 【日本語】
Goals of the Course(JPN)
授業の目的 【英語】
Goals of the Course
The goals of this course are to learn about the common crystal structures of solids, some of their general properties and their structure determination by diffraction techniques.
到達目標 【日本語】
Objectives of the Course(JPN))
到達目標 【英語】
Objectives of the Course
By the end of this course, students should be equipped with knowledge and skills concerning the following:
1) Explain why crystal form in specific structures in relation to atomic bonding mechanisms.
2) Know the most common crystal structures and why these are common..
3) Understand the basics of crystal classification based on symmetry analysis.
4) Understand the concept of reciprocal lattice and how it is related to diffraction of waves.
5) The relations of the reciprocal lattice with Fourier analysis and plane waves.
6) Know practical aspects and fundamentals of X-ray diffraction of the cubic crystal system.
7) Know what structure and form factors are.
授業の内容や構成
Course Content / Plan
First the different types of atomic bonds are introduced. Then some mechanical properties are discussed, then crystal structures are presented based on a symmetry analysis. The reciprocal lattice is described in relation to the diffraction phenomenon. The relations of the reciprocal lattice with Fourier analysis and plane waves are discussed. Some practical aspects of X-ray diffraction are presented for the cubic crystal system. The amplitude and intensities of diffraction peaks are discussed, introducing structure and form factors.

1. Bonding in Solids
2. Crystal Structure and Periodic Structure
3. Bravais Lattices; Common Crystal Structures
4. Typical Symmetry Elements
5. Real Space and Reciprocal Space
6. X-ray diffraction; Bragg Condition; Laue Function; Ewald sphere
7. Brillouin zone
8. Crystal Structure Factor
9. Structure Determination by X-ray diffraction
10. Elastic properties of solids and elastic strains
履修条件
Course Prerequisites
Quantum mechanics I; Fundamentals of Physics I, II and III.
関連する科目
Related Courses
Calculus I; II.
成績評価の方法と基準
Course Evaluation Method and Criteria
Grades will be based on:
- Reports. Approximately one report per lecture, to be submitted before the next lecture. If a student fails to submit a report by the deadline, the score for that report will be zero.
- A midterm examination
- A final examination.
不可(F)と欠席(W)の基準
Criteria for "Fail (F)" & "Absent (W)" grades
A student who does not sit one of the tests will be given the Absent (W) grade.
参考書
Reference Book
Ashcroft&Mermin: Solid State Physics (Brooks/Cole);
P.Hofmann:Solid State Physics, an introduction (Wiley−VCH)
教科書・テキスト
Textbook
Introduction to Solid State Physics (IE), 8th Edition Kittel, Charles/ McEuen, Paul. John Wiley & Sons Inc 2005, or a newer edition.
課外学習等(授業時間外学習の指示)
Study Load(Self-directed Learning Outside Course Hours)
Students are given approximately one report per lecture, to be submitted before the next lecture. The difficulty and length of each report will depend on the related topic. A typical report should take an hour or two to complete.
注意事項
Notice for Students
他学科聴講の可否
Propriety of Other department student's attendance
他学科聴講の条件
Conditions for Other department student's attendance
レベル
Level
キーワード
Keyword
履修の際のアドバイス
Advice
授業開講形態等
Lecture format, etc.
Face-to-face
遠隔授業(オンデマンド型)で行う場合の追加措置
Additional measures for remote class (on-demand class)