| Academic Year |
2024Year |
School/Graduate School |
Graduate School of Advanced Science and Engineering (Master's Course) Division of Advanced Science and Engineering Quantum Matter Program |
| Lecture Code |
WSP01400 |
Subject Classification |
Specialized Education |
| Subject Name |
電子相関物理学A |
Subject Name
(Katakana) |
デンシソウカンブツリガクA |
Subject Name in
English |
Strongly Correlated Electron Physics A |
| Instructor |
MATSUMURA TAKESHI |
Instructor
(Katakana) |
マツムラ タケシ |
| Campus |
Higashi-Hiroshima |
Semester/Term |
1st-Year, First Semester, 1Term |
| Days, Periods, and Classrooms |
(1T) Mon3-4:AdSM 405N, (1T) Tues1-2:AdSM 403N |
| Lesson Style |
Lecture |
Lesson Style
(More Details) |
|
| lecture and exercise via online system using Bb9 and Teams |
| Credits |
2.0 |
Class Hours/Week |
|
Language of Instruction |
B
:
Japanese/English |
| Course Level |
6
:
Graduate Advanced
|
| Course Area(Area) |
25
:
Science and Technology |
| Course Area(Discipline) |
06
:
Physics |
| Eligible Students |
master’s students in the department of quantum matter choosing the sciences of matter course |
| Keywords |
correlated electron system, phase transition, magnetism, transport properties |
| Special Subject for Teacher Education |
|
Special Subject |
|
Class Status
within Educational
Program
(Applicable only to targeted subjects for undergraduate students) | |
|---|
Criterion referenced
Evaluation
(Applicable only to targeted subjects for undergraduate students) | |
|---|
Class Objectives
/Class Outline |
Electrons in solids give rise to various kinds of phenomenon. Electrons interact with each other via Coulomb interaction and are governed by Pauli principle. Electron correlations originating from these two mechanism are strongly associated with the properties of solid states. We study what is correlated electrons from actual examples of researches. The students determine their own study subject and follow the actual research cases by data analysis and calculations. |
| Class Schedule |
Introduction
Understanding the basic concept of your own study subject
Understanding the basic concept of your own study subject
Set a basic problem and understand how to proceed the subject
Set a basic problem and understand how to proceed the subject
Improve the problem, theory, and calculation program
Improve the problem, theory, and calculation program
Improve the problem, theory, and calculation program
Reconstruction of the problem, theory, and calculation
Reconstruction of the problem, theory, and calculation
Further improve your subject
Further improve your subject
Summarize
Summarize
Write a report
presentation and report |
Text/Reference
Books,etc. |
handouts |
PC or AV used in
Class,etc. |
|
| (More Details) |
handouts |
| Learning techniques to be incorporated |
|
Suggestions on
Preparation and
Review |
think deep how and what interpretation comes out from analyses of experimental data |
| Requirements |
quantum mechanics and statistical mechanics |
| Grading Method |
reports, discussions |
| Practical Experience |
Experienced
|
| Summary of Practical Experience and Class Contents based on it |
Practical course based on plenty of experience in experimental studies of condensed matter physics by crystal growth, measurement of physical properties, neutron scattering, x-ray diffraction using synchrotron radiation, data analysis, modeling and numerical simulation. |
| Message |
|
| Other |
|
Please fill in the class improvement questionnaire which is carried out on all classes.
Instructors will reflect on your feedback and utilize the information for improving their teaching. |