visual
visual

세미나

  • HOME
  • >
  • 소식
  • >
  • 세미나

Topological Dirac insulator

2017.05.10 14:46

관리자 조회 수:15825

날짜 2017-05-12 13:30 
연사  
장소 E6-2. 1st fl. #1323 

“Topological Dirac insulator”

 

Dr. Young Kuk Kim 

Sungkyunkwan University 

 

May. 12 (Fri.), 01:30 PM

E6-2. 1st fl. #1323

 

 

The discovery of a topological insulator in 2005 led to remarkable development of topological band theory, revealing a variety of symmetry-protected topological insulators and semimetals. Here we introduce our recent finding of a novel topological crystalline insulating phase, referred to as a topological Dirac insulator [1]. A topological Dirac insulator is a bulk insulator with protected metallic surface states, allowed by non-symmorphic space group symmetries. Unlike conventional topological insulators, the surface states of a topological Dirac insulator occur as a four-fold degenerate Dirac point, considered as a topological phase boundary between a two-dimensional topological insulator and a normal insulator. We introduce Z4xZ2 topological invariants that characterizes topological Dirac insulator phase and demonstrate how to evaluate from the Wilson loop calculations. We also discuss its material realizations based on first-principles calculations.

 

[1] Wieder, Benjamin J., Barry Bradlyn, Zhijun Wang, Jennifer Cano, Youngkuk Kim, Hyeong-Seok D. Kim, A. M. Rappe, C. L. Kane, and B. Andrei Bernevig. "Wallpaper Fermions and the Topological Dirac Insulator." arXiv preprint arXiv:1705.01617 (2017). 

 

Contact: Eun Gook Moon, Physics Dept., (egmoon@kaist.ac.kr)

 

번호 날짜 연사 제목
공지 2026-03-09 16:00    2026년 봄학기 콜로키움
공지 2026-03-05 16:00    2026년 봄학기 물리학과 특별세미나 (광학/응집물리 분야)
670 2026-07-13 11:00  Dr. Claudio Zeni (Microsoft)  Accelerating materials design with AI emulators and generators file
669 2026-06-24 13:30  Ms. Hyejin Kim (Cornell University)  Learning Measurement-Induced Phase Transition Using Attention file
668 2026-06-22 16:00  Prof. Jong Yeon Lee (UIUC)  Landscape of Non-equilibrium Phases of Matter file
667 2026-06-18 16:00  Dr. Dongjin Kim (CSIRO Space and Astronomy  Practical Applications of VLBI Beyond Astronomy file
666 2026-06-16 16:00  Dr. Sara Issaoun (Center for Astrophysics | Harvard & Smithsonian)  Building a Precision Laboratory for Black Hole Studies file
665 2026-06-10 16:00  Prof. Philip Kim (Harvard University)  Distinguished Lecture_Search for Anyons in Quantum Materials file
664 2026-06-09 10:30  Yu Hyun Lee (University of Colorado)  Study of many-body interactions in a 3D optical lattice clock file
663 2026-05-12 15:00  Prof. Ro, Sunghan (Dept. of Physics, Harvard Univ.)  Multipole-conserving diffusion file
662 2026-04-24 15:00  Mr. Sanmun Kim(Caltech)  Gapping of the soft mode with disorder in a quantum ferromagnet file
661 2026-04-21 16:30  Dr. Jaewon Kim(UIUC)  Theory of Linear Magnetoresistance in Strange Metals file
660 2026-04-16 10:00  Mr. Luke Minho Lee (graduate student, MIT)  When Is Chiral Superconductivity favoured in Flat-Band Systems? file
659 2026-04-15 12:00  Dr. Taufiq Murtadho (Nanyang Technological University)  Common Phase Fluctuations in Low-Dimensional Bose Gases file
658 2026-04-03 15:00  Dr. Siheon Ryee(Univ. of Hamburg)  Superconductivity and Correlations in Emerging Quantum Materials file
657 2026-04-01 16:00  Dr. Dongjoon Song (University of British Columbia)  Unlocking the new frontier of novel quantum materials research using state of the art floating zone technique file
656 2026-03-31 14:00  Prof. Daniel Sando (University of Canterbury)  Crafting novel low-symmetry and topological structures in ferroelectric oxide thin films and superlattices file
655 2026-02-25 16:00  Dr. Minjae Kim (KIST)  Collective excitations and order parameter dynamics in quantum materials file
654 2026-02-25 10:00  Prof. Gen Tatara (RIKEN Center for Emergent Matter Science)  Lectures on spintronics and theoretical approaches in spin transport file
653 2026-02-19 10:00  Prof. Ron Lifshitz (Tel Aviv University)  What is a Crystal? A new paradigm for an old question file