- Title题目 Dissipative Floquet superconductivity
- Speaker报告人 刘东（清华大学）
- Date日期 2021/06/24 10:30-11:30
- Venue地点 腾讯会议: https://meeting.tencent.com/s/xGxkqjs3OXqG
Periodic driving schemes provide a simple way to study systems out of equilibrium, also known as Floquet engineering. For examples, in order to engineer superconductivity in Floquet system, there are two possible routes: 1) proximity-induced SC, 2) intrinsic SC due to interaction stabilities. We study the interplay among cooper correlation, periodic driving, and unavoidable dissipations in those Floquet systems. First of all, we consider Floquet topological SC, where the SC correlations are from proximity effect. Proximity effects provide not only cooper correlation but also strong dissipation; therefore, Floquet Majorana zero modes acquire finite lifetimes, and Floquet Majorana Pi mode can be destroyed. Secondly, we consider intrinsic superconductivity in a dissipative Floquet due to interaction instability. We find that the system shows a time-periodic bosonic condensation and reaches an intrinsic dissipative Floquet SC phase. The fermionic part acquires a “soft” energy gap and contains the diffusive modes with finite lifetimes.
个人简介：Dr. Dong Liu is an associate professor at Tsinghua University. He got his B.S. and PhD degrees at Peking university and Duke University, and worked as a postdoc researcher at Michigan State University and Microsoft Station Q. He joined Tsinghua University in 2018. He mostly focused on the theory of topological devices and quantum computation.