2차원 물질에서 발생하는 다양한 물리 현상의 기본 이해를 도모한다. 2차원 물질계의 구조, 광학, 전기 및 자성적 특성에 대한 최근 이론/실험 연구들을 포함한다.

The course is aiming to provide a basic knowledge of the various phenomena in two-dimensional materials. Course content will cover recent theoretical and experimental investigations on structural, optical, electrical, and magnetic properties of various two-dimensional materials.

Knowledge of basic principles of quantum mechanics and condensed matter physics is desirable.
- Graduate Quantum Mechnics 1 or its equivalent (for physics major students)
- AMSE313, Physics of materials, or its equivalent (for material science and engineering major students)
- We recommend material science and engineering students to consult with Prof. Jonghwan Kim before registering to the class.

Attendance(20%), Term paper(40%), Exam(40%)

9/2, 9/4, 9/9, 9/11
Introduction & Charge-density waves in two dimensional materials
(Prof. Tae-Hwan Kim)

9/23, 9/25, 9/30, 10/2
Nanoscale light-matter interactions in two dimensional materials
(Prof. Kyoung-Duck Park)

10/7, 10/14, 10/16, 10/21
Optical properties of two dimensional materials
(Prof. Jonghwan Kim)

10.23: No class

10/28, 10/30, 11/4, 11/6
Superconductivity in two dimensional materials
(Prof. Gil-Ho Lee)

11/11, 11/13, 11/18, 11/20
Magnetism in two dimensional materials
(Prof. Jun Sung Kim)

11/25, 11/27, 12/2, 12/4
Moiré Physics in two dimensional materials
(Prof. Myungchul Oh)

12/9- 12/13
Term paper submission (due: 12/13 11:59pm)

12.18: Final exam

별도의 공지가 없는 한 역진행 수업으로 진행됩니다.
Classes will be offered in flipped learning unless otherwise noted.