12/5 물리학과 특별세미나 안내
페이지 정보
2016.12.02 / 2,162Links
본문
물리학과 특별세미나 개최 안내
물리학과에서는 응집물리실험-광학분야 특별세미나를 아래와 같이 개최하오니 관심있는 분들의 많은 참석을 바랍니다.
1. 연사: 이길호 박사 (Department of Physics, Harvard University)
2. 일시: 2016. 12. 5(월), 오후 2시 30분
3. 장소: 공학3동 201호 (세미나실)
4. 제목: Topological Superconductivity in Quantum Hall-Superconductor
Hybrid Structure
Understanding interplay between the superconductor (SC) and the quantum Hall (QH) phase has been a long-sought theoretical and experimental problem in condensed matter physics. Particularly, QH-SC hybrid structure has been suggested as a new kind of platform to study emergent excitations of non-Abelian anyons. We achieved to induce superconducting correlations into QH edge states by adopting the in-situ etching technique for highly transparent NbN superconducting contacts to the graphene channel encapsulated by h-BN. The high critical field of NbN electrodes (Hc2~25T) and the high quality of the graphene allow us to experimentally access a wide range of magnetic field and temperature where superconductivity and (fractional) QH effect coexist. I will discuss the experimental observation and various properties of such QH-SC hybrid system, in terms of a unique platform for realizing universal and scalable to pological quantum computers.
2016. 12. 3
물리학과 주임교수
Announcement on Physics Special Seminar
The Department of Physics will hold a Special Seminar as follows. The Special Seminar is open to all POSTECH members. Your participation will be greatly appreciated.1. Speaker: Dr. Gil-Ho Lee (Department of Physics, Harvard University)
2. Date(Time): Monday, December 5, 2016 (2:30 p.m.)3. Place: Science Bldg. III, Room 2014. Title: Topological Superconductivity in Quantum Hall-Superconductor
Hybrid Structure
Understanding interplay between the superconductor (SC) and the quantum Hall (QH) phase has been a long-sought theoretical and experimental problem in condensed matter physics. Particularly, QH-SC hybrid structure has been suggested as a new kind of platform to study emergent excitations of non-Abelian anyons. We achieved to induce superconducting correlations into QH edge states by adopting the in-situ etching technique for highly transparent NbN superconducting contacts to the graphene channel encapsulated by h-BN. The high critical field of NbN electrodes (Hc2~25T) and the high quality of the graphene allow us to experimentally access a wide range of magnetic field and temperature where superconductivity and (fractional) QH effect coexist. I will discuss the experimental observation and various properties of such QH-SC hybrid system, in terms of a unique platform for realizing universal and scalable to pological quantum computers.
December 3, 2016Head, Dept. of Physics
- 다음글 다음글이 없습니다.
- 이전글 이전글이 없습니다.