Strong Correlation
and
Quantum Criticality
Synopsis
Quantum criticality (QC) is the door to understand the strongly correlated system, where all scales disappear so that the description is simple and universal. The strong correlation makes a system arrive at the QC fast so that hydrodynamics is useful in a short time scale. Here we discuss the possibility of the presence of a frame by which we can discuss a variety of different phenomena in a coherent fashion in terms of simple language.Synopsis
Schedule
Schedule
- Time: 2021. June. 29 (Tue) ~ June. 30 (Wed)
- Space: APCTP & zoom
Program
Program
June 29(Tue), Chairperson: 김근영
- 2 pm 김기훈 (서울대) Enhanced conventional superconductivity in the vicinity of a CDW quantum critical point
- 3 pm 최재윤 (Kaist) Towards quantum gas microscopy of Fermionic atoms in a Kagome optical lattice
- 4 pm 조준형 (한양대) Dirac fermions and flat band magnetism in kagome lattices
- 5 pm 신상진(한양대) strong correlation and topological bulk zero modes near QCP
June 30(Wed) morning, Chairperson: 문순재
- 10 am 김용관 (Kaist) Dynamics of electron near QCP revealed by ARPES
- 11 am 서정필(DGIST) magnetic quantum phase transition in FeSe
June 30(Wed) afternoon, Chairperson: 서정필
- 2 pm 신용일(서울대) Experimental study on Dynamical Superfluid Transition of quantum gas
- 3 pm 김재용(한양대) Structure and Tc of alkali metal poly hydrides at high pressure and high temperature
- 4 pm 문순재(한양대) Optical study on charge dynamics of correlated metals
- 5 pm 김근영(GIST) Holographic methods for condensed matter theory (CMT)
Organizer
Organizer
- Sang-Jin Sin (sangjin.sin@gmail.com)
Sponsor
Sponsor
