| Academic Year |
2024Year |
School/Graduate School |
School of Science |
| Lecture Code |
HD270000 |
Subject Classification |
Specialized Education |
| Subject Name |
固体物理学II |
Subject Name
(Katakana) |
コタイブツリガクニ |
Subject Name in
English |
Solid State Physics II |
| Instructor |
ISHII ISAO |
Instructor
(Katakana) |
イシイ イサオ |
| Campus |
Higashi-Hiroshima |
Semester/Term |
4th-Year, First Semester, First Semester |
| Days, Periods, and Classrooms |
(1st) Thur7-8:SCI E002 AV |
| Lesson Style |
Lecture |
Lesson Style
(More Details) |
|
| Content of the lecture is mainly written on the boards or projected on the screen. |
| Credits |
2.0 |
Class Hours/Week |
|
Language of Instruction |
B
:
Japanese/English |
| Course Level |
4
:
Undergraduate Advanced
|
| Course Area(Area) |
25
:
Science and Technology |
| Course Area(Discipline) |
06
:
Physics |
| Eligible Students |
4th year undergraduate student |
| Keywords |
Condensed matter physics, magnetism, superconductivity, phase transition |
| Special Subject for Teacher Education |
|
Special Subject |
|
Class Status
within Educational
Program
(Applicable only to targeted subjects for undergraduate students) | Physics (Knowledge and Understanding) |
|---|
Criterion referenced
Evaluation
(Applicable only to targeted subjects for undergraduate students) | Physics
(Knowledge and Understanding)
・Knowledge and understanding of specialized field of elementary particle physics, cosmophysics, astrophysics, solid-state physics, condensed matter physics and radiation physics. |
|---|
Class Objectives
/Class Outline |
Study physical phenomena in a solid, such as the magnetism and the superconductivity, based on the knowledge of statistical mechanics, quantum mechanics, solid state physics I, and crystallography. |
| Class Schedule |
lesson1 Review of solid state physics I and crystallography
lesson2 Magnetism, superconductivity, and classification of magnetic materials
lesson3 Magnetic moment, magnetization, and Bohr magneton
lesson4 Diamagnetism, paramagnetism, Brillouin function, Curie law, and Lande g-factor
lesson5 d- and f-electrons, spin-orbit coupling, Hund's rule, and quench of orbital angular momentum
lesson6 Crystal electric field and Jahn-Teller effect
lesson7 Magnetic dipole interaction, exchange interaction, and spin-singlet (-triplet)
lesson8 Magnetic ordering: ferromagnetism, antiferromagnetism, and ferrimagnetism
lesson9 Phase transition and Landau theory
lesson10 Pauli paramagnetism, itinerant ferromagnetism, and Landau diamagnetism
lesson11 RKKY interaction, Kondo effect, quantum phase transition, and geometrical frustration
lesson12 Superconductivity, zero resistivity, Meissner effect, and type-I (-II) superconductor
lesson13 Superconducting gap, tunnel effect, Josephson effect, and London equation
lesson14 Cooper pair and BCS theory
lesson15 Various superconductors
Reports are required occasionally. |
Text/Reference
Books,etc. |
There is no specified textbook. The books of reference are, for instance, as follows.
Introduction to Solid State Physics, C. Kittel, Wiley |
PC or AV used in
Class,etc. |
|
| (More Details) |
Prints will be given occasionally. |
| Learning techniques to be incorporated |
|
Suggestions on
Preparation and
Review |
Learn physical phenomena, such as magnetism, superconductivity, and a phase transition, in a solid based on statistical mechanics and quantum mechanics. |
| Requirements |
|
| Grading Method |
Reports and attendance |
| Practical Experience |
|
| Summary of Practical Experience and Class Contents based on it |
|
| 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. |