【直播】【施汝为系列讲座】武汉大学吴冯成教授：Prediction and realization of...

此次讲座由合肥微尺度物质科学国家研究中心、国际功能材料量子设计中心、中科院强耦合量子材料物理重点实验室、中国科大物理系、科研部联合主办，由低温物理学报承办，于2021年11月18日14:00开始。授权蔻享学术进行网络直播。

报告摘要

Moiré superlattices form in van der Waals bilayers with a small lattice mismatch or misalignment. I will present theoretical proposals of using moiré bilayers as a quantum simulation platform to realize model Hamiltonians. In semiconducting transition metal dichalcogenide (TMD) heterobilayers, isolated flat moiré bands can be used to simulate Fermi-Hubbard model on a triangular lattice, in which parameters such as bandwidth, interaction strength, and band filling are widely tunable. When the two layers are formed from the same TMD, holes in ±K valleys move in a layer-pseudospin skyrmion texture in real space. The low-energy moiré bands can be mapped to the quantum-spin-Hall Kane-Mele model for suitable model parameters. In the past two years, several experimental works have been performed following closely the above theoretical proposals. A recent experiment reports the observation of quantum anomalous Hall effect in AB-stacked MoTe2/WSe2. This experiment is a surprise, as it realizes topological states in a heterobilayer instead of the theoretically proposed homobilayer. I will discuss how this experiment could be understood theoretically and highlight the interplay between single-particle band topology and many-body interaction. 

报告人介绍

中国科大施汝为系列讲座链接：

https://www.koushare.com/live/srw

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