We present a comprehensive investigation into the superconducting properties of L_(a3)Al,a La-based metal with a kagome structure.L_(a3)Al crystallizes in a Ni_(3)Sn-type crystal structure(space group P63/mmc),where t...We present a comprehensive investigation into the superconducting properties of L_(a3)Al,a La-based metal with a kagome structure.L_(a3)Al crystallizes in a Ni_(3)Sn-type crystal structure(space group P63/mmc),where the La atoms form a kagome lattice.Resistivity measurements reveal superconducting transition with T_(c)^(onset)=6.37 K and Tczero=6.18 K.In magnetic susceptibility measurements,the superconducting transition is observed at 6.16 K.The lower and upper critical fields are determined to be 22.17 mT and 6.69 T,respectively.Heat capacity measurements confirm the bulk superconductivity,showing a normalized specific heat change of△Ce/(_(γ)T_(c))=2.16 and an electron-phonon coupling strength ofλ_(ep)=0.92.DFT calculations reveal the intricate band structure of La_(3)Al.The notable specific heat jump,coupled with the electron-phonon coupling strengthλ_(ep),indicates that La_(3)Al exhibits characteristics of an intermediately coupled type-Ⅱsuperconductor.展开更多
The kagome lattice,characterized by a hexagonal arrangement of corner-sharing equilateral triangles,has garnered significant attention as a fascinating quantum material system that hosts exotic magnetic and electronic...The kagome lattice,characterized by a hexagonal arrangement of corner-sharing equilateral triangles,has garnered significant attention as a fascinating quantum material system that hosts exotic magnetic and electronic properties.The identification and characterization of this class of materials are critical for advancing our understanding of their role in emergent phenomena such as superconductivity.In this study,we developed a high-throughput screening framework for the systematic identification and classification of superconducting materials with kagome lattices,integrating them into established materials databases.Leveraging the Materials Project(MP)database and the MDR Super Con dataset,we analyzed over 150000 inorganic compounds and cross-referenced 26000 known superconductors.Using geometry-based structural modeling and experimental validation,we identified 129 kagome superconductors belonging to 17 distinct structural families,many of which had not previously been recognized as kagome systems.The materials are further classified into three categories in terms of topological flat bands,clean band structures,and coexisting magnetic or charge density wave(CDW)orderings.Based on these results,we established a database comprising 129 kagome superconductors,including the detailed crystallographic,electronic,and superconducting properties of these materials.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant Nos.52272268 and 52250308)the Strategic Priority Research Program and Key Research Program of Frontier Sciences of the Chinese Academy of Sciences(Grant No.XDB33010100)+1 种基金the Informatization Plan of Chinese Academy of Sciences(Grant No.CAS-WX2021SF0102)the Synergetic Extreme Condition User Facility(SECUF)。
文摘We present a comprehensive investigation into the superconducting properties of L_(a3)Al,a La-based metal with a kagome structure.L_(a3)Al crystallizes in a Ni_(3)Sn-type crystal structure(space group P63/mmc),where the La atoms form a kagome lattice.Resistivity measurements reveal superconducting transition with T_(c)^(onset)=6.37 K and Tczero=6.18 K.In magnetic susceptibility measurements,the superconducting transition is observed at 6.16 K.The lower and upper critical fields are determined to be 22.17 mT and 6.69 T,respectively.Heat capacity measurements confirm the bulk superconductivity,showing a normalized specific heat change of△Ce/(_(γ)T_(c))=2.16 and an electron-phonon coupling strength ofλ_(ep)=0.92.DFT calculations reveal the intricate band structure of La_(3)Al.The notable specific heat jump,coupled with the electron-phonon coupling strengthλ_(ep),indicates that La_(3)Al exhibits characteristics of an intermediately coupled type-Ⅱsuperconductor.
基金supported by the National Key Research and Development Program of China(Grant No.2018YFE0202600)the National Natural Science Foundation of China(Grant No.52272268)+3 种基金the Key Research Program of Frontier SciencesCAS(Grant No.QYZDJ-SSWSLH013)the Informatization Plan of Chinese Academy of Sciences(Grant No.CAS-WX2021SF-0102)the Youth Innovation Promotion Association of CAS(Grant No.2019005)。
文摘The kagome lattice,characterized by a hexagonal arrangement of corner-sharing equilateral triangles,has garnered significant attention as a fascinating quantum material system that hosts exotic magnetic and electronic properties.The identification and characterization of this class of materials are critical for advancing our understanding of their role in emergent phenomena such as superconductivity.In this study,we developed a high-throughput screening framework for the systematic identification and classification of superconducting materials with kagome lattices,integrating them into established materials databases.Leveraging the Materials Project(MP)database and the MDR Super Con dataset,we analyzed over 150000 inorganic compounds and cross-referenced 26000 known superconductors.Using geometry-based structural modeling and experimental validation,we identified 129 kagome superconductors belonging to 17 distinct structural families,many of which had not previously been recognized as kagome systems.The materials are further classified into three categories in terms of topological flat bands,clean band structures,and coexisting magnetic or charge density wave(CDW)orderings.Based on these results,we established a database comprising 129 kagome superconductors,including the detailed crystallographic,electronic,and superconducting properties of these materials.
