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Topological Quantum Materials with Kagome Lattice
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2024-06-20 , DOI: 10.1021/accountsmr.3c00291 Qi Wang 1, 2, 3 , Hechang Lei 2, 4 , Yanpeng Qi 1, 3, 5 , Claudia Felser 6
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2024-06-20 , DOI: 10.1021/accountsmr.3c00291 Qi Wang 1, 2, 3 , Hechang Lei 2, 4 , Yanpeng Qi 1, 3, 5 , Claudia Felser 6
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Recently, various topological states have undergone a spurt of progress in the field of condensed matter physics. An emerging category of topological quantum materials with kagome lattice has drawn enormous attention. A two-dimensional kagome lattice composed of corner-sharing triangles is a fascinating structural system, which could not only lead to geometrically frustrated magnetism but also have a nontrivial topological electronic structure hosting Dirac points, van Hove singularities, and flat bands. Due to the existence of multiple spin, charge, and orbit degrees of freedom accompanied by the unique structure of the kagome lattice, the interplay between frustrated magnetism, nontrivial topology, and correlation effects is considered to result in abundant quantum states and provides a platform for researching the emergent electronic orders and their correlations.
中文翻译:
Kagome 晶格拓扑量子材料
近年来,各种拓扑态在凝聚态物理领域取得了突飞猛进的进展。一类新兴的具有戈薇晶格的拓扑量子材料引起了人们的广泛关注。由共享角三角形组成的二维戈薇晶格是一个令人着迷的结构系统,它不仅可以导致几何上受挫的磁性,而且还具有包含狄拉克点、范霍夫奇点和平带的非平凡拓扑电子结构。由于存在多个自旋、电荷和轨道自由度以及戈薇晶格的独特结构,受挫磁性、非平凡拓扑和相关效应之间的相互作用被认为会产生丰富的量子态,并为研究新兴的电子订单及其相关性。
更新日期:2024-06-20
中文翻译:
Kagome 晶格拓扑量子材料
近年来,各种拓扑态在凝聚态物理领域取得了突飞猛进的进展。一类新兴的具有戈薇晶格的拓扑量子材料引起了人们的广泛关注。由共享角三角形组成的二维戈薇晶格是一个令人着迷的结构系统,它不仅可以导致几何上受挫的磁性,而且还具有包含狄拉克点、范霍夫奇点和平带的非平凡拓扑电子结构。由于存在多个自旋、电荷和轨道自由度以及戈薇晶格的独特结构,受挫磁性、非平凡拓扑和相关效应之间的相互作用被认为会产生丰富的量子态,并为研究新兴的电子订单及其相关性。
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