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One of the grand challenges of materials research is the ability to engineer and tune quantum degrees of freedom in order to discover new properties and phenomena, as well as to harness the flow of energy, charge, and information. A frontier of this understanding and optimization, which is the central goal of my group, lies in the control of a material's excitations and macroscopic properties at the quantum level through the tuning of light-matter interactions and many-electron correlations. My group uses and develops first principles quantum physics methods, which exploit high-performance computing to calculate many-electron interaction effects and make quantitatively accurate predictions about real materials. We are interested in the discovery and design of novel, highly-tunable, and transient materials, as well as the exploration of fundamental processes, such as exciton transport and coherence, and nonlinear and ultrafast optical response in materials relevant to fields such as optoelectronics, quantum information, and energy research. Materials of interest include two-dimensional materials and heterostructures, material defects, hybrid perovskite, and topological materials, among many others.
One of the grand challenges of materials research is the ability to engineer and tune quantum degrees of freedom in order to discover new properties and phenomena, as well as to harness the flow of energy, charge, and information. A frontier of this understanding and optimization, which is the central goal of my group, lies in the control of a material's excitations and macroscopic properties at the quantum level through the tuning of light-matter interactions and many-electron correlations. My group uses and develops first principles quantum physics methods, which exploit high-performance computing to calculate many-electron interaction effects and make quantitatively accurate predictions about real materials. We are interested in the discovery and design of novel, highly-tunable, and transient materials, as well as the exploration of fundamental processes, such as exciton transport and coherence, and nonlinear and ultrafast optical response in materials relevant to fields such as optoelectronics, quantum information, and energy research. Materials of interest include two-dimensional materials and heterostructures, material defects, hybrid perovskite, and topological materials, among many others.
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论文共 55 篇作者统计合作学者相似作者
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PHYSICA D-NONLINEAR PHENOMENA (2024): 133938-133938
Yang-hao Chan,Mit H. Naik,Jonah B. Haber, Jeffrey B. Neaton,Steven G. Louie,Diana Y. Qiu,Felipe H. da Jornada
arxiv(2024)
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Shunran Li, Xian Xu, Conrad A. Kocoj,Chenyu Zhou, Yanyan Li, Du Chen, Joseph A. Bennett, Sunhao Liu,Lina Quan,Suchismita Sarker,Mingzhao Liu,Diana Y. Qiu,
Nature Communicationsno. 1 (2024): 1-9
ACS NANOno. 23 (2023): 23422-23429
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