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Overview
In a quantum many-body system, even though the microscopic constituents (like electrons and spins) can be relatively simple, correlations and quantum entanglement can lead to the emergence of novel collective behaviors that are drastically different from the behavior of each individual constituent. Over the years, many examples of highly non-trivial collective behaviors have been discovered in 2d electron gas, cuprates, heavy-fermion materials, graphene, van der Waals heterostructures, and many other experimental systems. These discoveries have been motivating and driving a tremendous amount of progress in the theoretical understanding of how and what types of exotic collective behaviors can emerge following the basic rules of quantum mechanics. Our group is particularly interested in the theoretical study of the emergence of topological properties, exotic critical behaviors, highly entangled phases of matter, and universal dynamics in strongly-correlated quantum systems. We will pursue the development of new theoretical frameworks to characterize novel collective behaviors, as well as the construction of simple and amenable models to capture the essence of interesting phenomena observed in experiments.
Research Focus
My research interest lies in the theoretical study of strongly-correlated quantum many-body systems. Currently, the following topics are my main focus.
In a quantum many-body system, even though the microscopic constituents (like electrons and spins) can be relatively simple, correlations and quantum entanglement can lead to the emergence of novel collective behaviors that are drastically different from the behavior of each individual constituent. Over the years, many examples of highly non-trivial collective behaviors have been discovered in 2d electron gas, cuprates, heavy-fermion materials, graphene, van der Waals heterostructures, and many other experimental systems. These discoveries have been motivating and driving a tremendous amount of progress in the theoretical understanding of how and what types of exotic collective behaviors can emerge following the basic rules of quantum mechanics. Our group is particularly interested in the theoretical study of the emergence of topological properties, exotic critical behaviors, highly entangled phases of matter, and universal dynamics in strongly-correlated quantum systems. We will pursue the development of new theoretical frameworks to characterize novel collective behaviors, as well as the construction of simple and amenable models to capture the essence of interesting phenomena observed in experiments.
Research Focus
My research interest lies in the theoretical study of strongly-correlated quantum many-body systems. Currently, the following topics are my main focus.
研究兴趣
论文共 89 篇作者统计合作学者相似作者
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arxiv(2024)
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arxiv(2024)
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arXiv (Cornell University)no. 4 (2023)
Physical reviewno. 16 (2023)
Zi Hong Liu,Yuan Da Liao,Gaopei Pan, Menghan Song, Jiarui Zhao,Weilun Jiang,Chao-Ming Jian,Yi-Zhuang You,Fakher F. Assaad,Zi Yang Meng,Cenke Xu
Physical Review Lettersno. 15 (2023)
PHYSICAL REVIEW Bno. 2 (2023)
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arXiv (Cornell University) (2023)
PRX QUANTUMno. 3 (2023)
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