Encoding innumerable charge density waves of FeGe into polymorphs of LiFe_(6)Ge_(6)  

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作  者:Yilin Wang 

机构地区:[1]School of Emerging Technology,University of Science and Technology of China,Hefei 230026,China [2]Hefei National Laboratory,University of Science and Technology of China,Hefei 230088,China [3]New Cornerstone Science Laboratory,University of Science and Technology of China,Hefei 230026,China

出  处:《Science China(Physics,Mechanics & Astronomy)》2024年第9期126-132,共7页中国科学:物理学、力学、天文学(英文版)

基  金:supported by the National Natural Science Foundation of China(Grant No.12174365);the New Cornerstone Science Foundation。

摘  要:Kagome metals exhibit rich quantum states by the intertwining of lattice,charge,orbital and spin degrees of freedom.Recently,a novel charge density wave(CDW)ground state was discovered in kagome magnet FeGe and was revealed to be driven by lowering magnetic energy via large Ge1-dimerization.Here,based on DFTcalculations,we show that such mechanism will yield infinitely many metastable CDWs in FeGe due to different ways to arrange the Ge1-dimerization in enlarged superstructures.Intriguingly,utilizing these metastable CDWs,innumerable polymorphs of kagome magnet LiFe_(6)Ge_(6) can be stabilized by filling Li atoms in the voids right above/below the dimerized Ge1-sites in the CDW superstructures.Such polymorphs are very stable due to the presence of magnetic-energy-saving mechanism,in sharp contrast to the non-magnetic“166”kagome compounds.In this way,a one-to-one mapping of the metastable CDWs of FeGe to stable polymorphs of LiFe_(6)Ge_(6) is established.On one hand,the fingerprints of these metastable CDWs,i.e.,the induced in-plane atomic distortions and band gaps,are encoded into the corresponding stable polymorphs of LiFe_(6)Ge_(6),such that further study of their properties becomes possible.On the other hand,such innumerable polymorphs of LiFe_(6)Ge_(6) offer great degrees of freedom to explore the rich physics of magnetic kagome metals.We thus reveal a novel connection between the unusually abundant CDWs and structural polymorphism in magnetic kagome materials,and establish a new route to obtain structural polymorphism on top of CDW states.

关 键 词:kagome magnet unconventional charge density wave structural polymorphism magnetic energy saving 

分 类 号:O469[理学—凝聚态物理]

 

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