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Prof. Feng Liu: Excitonic Condensation in a Quantum Semiconductor of Superatomic Graphene with Yin-Yang Flat Bands (2023/10/16)

( 2023-10-09 )

题目

Excitonic Condensation in a Quantum Semiconductor of Superatomic Graphene with Yin-Yang Flat Bands

报告人


Prof. Feng Liu (刘锋)

University of Utah, USA


时间

2023年10月16日(星期一)下午3:00

地点

物质科研楼B902会议室

报告人简介

Feng Liu is currently a Distinguished and Ivan B. Cutler Professor in the Department of Materials Science and Engineering at University of Utah. His research interests lie in the theoretical modeling and computer simulation, from electronic to atomic and to mesoscopic scales, to study a wide spectrum of physical behavior of materials, with a special focus on surfaces/interfaces, thin films and low-dimensional materials. His best-known work includes theoretical modeling of self-assembly/self-organization of quantum dots and quantum wires in epitaxial growth of strained thin films, prediction of organic two-dimensional topological materials and surface-based topological states, and prediction of many-body quantum states of yin-yang flat bands. He is the recipient of 2023 Davisson-Germer Prize in Atomic or Surface Physics. He is a fellow of American Physical Society. He served as Divisional Associated Editor of Physical Review Letters and he is founding editor-in-chief for Coshare Science.

报告摘要

An excitonic insulator phase can be stabilized in narrow-gap semiconductors/semimetals when spontaneously formed excitons, bound bosonic pairs of electrons and holes, condense at low temperatures. The search for excitonic Bose-Einstein condensate (BEC) in intrinsic semiconductors has received tremendous attention in the past decade, but so far convincing evidence remains lacking. Several material candidates have been recently proposed computationally, but these studies are limited to single exciton calculations and the effects of interactions, if included, are approximated using mean-field approach. In this talk, I will discuss our recent work investigating the role of topological flat bands (FBs) in promoting excitonic BEC. First, I will show that flat valence and conduction bands (so-called yin-yang FBs) of quantum semiconductors, such as the one having a diatomic Kagome lattice as exemplified in a superatomic graphene, conspire to enable a triplet excitonic insulator state, based on DFT-GW and BSE calculations for a single exciton formation. Next, using exact diagonalization method to solve an extended Hubbard lattice model of yin-yang FBs parameterized to superatomic graphene, I will show directly spontaneous BEC of triplet excitons, based on analyses of multi-exciton formation energies and wave functions. I will demonstrate the critical role of FBs in promoting quantum coherence, as evidenced by off-diagonal long-range order in many-exciton states. These works significantly enriches FB and excitonic physics while providing a unique platform for material realization of spinor BEC and spin superfluidity.



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