学术活动
量子材料
Correlation Physics in Twisted Bilayer Graphene and a Mapping to a Heavy Fermion Problem
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主讲人: 宋志达 (新普京澳门娱乐场网站站app量子材料科学中心)
地点: 新普京澳门娱乐场网站站app物理楼, 西563会议室
时间: 2022年3月9日 (周三)下午3:00
主持 联系人: 刘阳 <liuyang02@pku.edu.cn>
主讲人简介: Zhida Song is an assistant professor at International Center for Quantum Materials, School of Physics, Peking University. He earned his Ph.D. at Institute of Physics, Chinese Academy of Sciences in 2018 and his B.S. at University of Electronic Sciences and Technologies in 2013. He is a theorist in condensed matter physics, with current primary interests in topological states and two-dimensional twisted materials.

Abstract:

In this talk, I will summarize a series of our recent works on the many-body physics in twisted bilayer graphene (TBG) and present an outlook for future theoretical studies. First, I will review the projected Coulomb Hamiltonian of TBG and derive its U(4)xU(4) and U(4) symmetries in different limits. Then, with the help of symmetries, we can write down exact eigenstates of the projected Coulomb Hamiltonian at integer fillings. These results are confirmed by numerical exact diagonalization. Given the many-body symmetries and exact ground states, we can also derive the exact charge 1, 2, 0 excitations, with Goldstone modes included. Remarkably, through charge 2 excitations, we prove the absence of Cooper pairs in the project Coulomb Hamiltonian around integer fillings. Finally, we map the TBG system to a heavy-fermion problem in a first-principles spirit. This mapping explains many previous analytical and numerical results both qualitatively and quantitatively in a simple and intuitive picture. In the end, I will discuss potential applications of the heavy-fermion model in explaining relevant experiments.