Importance of the Fermi surface and magnetic interactions for the superconducting dome in electron-doped FeSe intercalates

Makoto Shimizu; Nayuta Takemori; Daniel Guterding; Harald O. Jeschke

doi:10.1103/PHYSREVB.101.180511

Importance of the Fermi surface and magnetic interactions for the superconducting dome in electron-doped FeSe intercalates

Makoto Shimizu, Nayuta Takemori, Daniel Guterding, Harald O. Jeschke

異分野基礎科学研究所

研究成果 › 査読

5 被引用数 (Scopus)

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The van-der-Waals gap of iron chalcogenide superconductors can be intercalated with a variety of inorganic and organic compounds that modify the electron doping level of the iron layers. In Lix(C3N2H10)0.37FeSe, a dome in the superconducting transition temperature Tc has been reported to occur in the doping range of x=0.06 to x=0.68. We use a combination of density functional theory and spin fluctuation theory to capture the evolution of superconducting transition temperatures theoretically. We clearly demonstrate how the changing electronic structure supports an increasing superconducting Tc. The suppression of Tc at high doping levels can, however, only be understood by analyzing the magnetic tendencies, which evolve from stripe-type at low doping to bicollinear at high doping.

本文言語	English
論文番号	180511
ジャーナル	Physical Review B
巻	101
号	18
DOI	https://doi.org/10.1103/PHYSREVB.101.180511
出版ステータス	Published - 5月 1 2020

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
凝縮系物理学

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title = "Importance of the Fermi surface and magnetic interactions for the superconducting dome in electron-doped FeSe intercalates",

abstract = "The van-der-Waals gap of iron chalcogenide superconductors can be intercalated with a variety of inorganic and organic compounds that modify the electron doping level of the iron layers. In Lix(C3N2H10)0.37FeSe, a dome in the superconducting transition temperature Tc has been reported to occur in the doping range of x=0.06 to x=0.68. We use a combination of density functional theory and spin fluctuation theory to capture the evolution of superconducting transition temperatures theoretically. We clearly demonstrate how the changing electronic structure supports an increasing superconducting Tc. The suppression of Tc at high doping levels can, however, only be understood by analyzing the magnetic tendencies, which evolve from stripe-type at low doping to bicollinear at high doping. ",

author = "Makoto Shimizu and Nayuta Takemori and Daniel Guterding and Jeschke, {Harald O.}",

note = "Funding Information: The authors would like to thank Hiroaki Kusunose and Igor Mazin for valuable discussions. Part of the computations were carried out at the Supercomputer Center at the Institute for Solid State Physics, the University of Tokyo. This work was supported by MEXT Leading Initiative for Excellent Young Researchers. Funding Information: Acknowledgments. The authors would like to thank Hiroaki Kusunose and Igor Mazin for valuable discussions. Part of the computations were carried out at the Supercomputer Center at the Institute for Solid State Physics, the University of Tokyo. This work was supported by MEXT Leading Initiative for Excellent Young Researchers. Publisher Copyright: {\textcopyright} 2020 American Physical Society.",

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N1 - Funding Information: The authors would like to thank Hiroaki Kusunose and Igor Mazin for valuable discussions. Part of the computations were carried out at the Supercomputer Center at the Institute for Solid State Physics, the University of Tokyo. This work was supported by MEXT Leading Initiative for Excellent Young Researchers. Funding Information: Acknowledgments. The authors would like to thank Hiroaki Kusunose and Igor Mazin for valuable discussions. Part of the computations were carried out at the Supercomputer Center at the Institute for Solid State Physics, the University of Tokyo. This work was supported by MEXT Leading Initiative for Excellent Young Researchers. Publisher Copyright: © 2020 American Physical Society.

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N2 - The van-der-Waals gap of iron chalcogenide superconductors can be intercalated with a variety of inorganic and organic compounds that modify the electron doping level of the iron layers. In Lix(C3N2H10)0.37FeSe, a dome in the superconducting transition temperature Tc has been reported to occur in the doping range of x=0.06 to x=0.68. We use a combination of density functional theory and spin fluctuation theory to capture the evolution of superconducting transition temperatures theoretically. We clearly demonstrate how the changing electronic structure supports an increasing superconducting Tc. The suppression of Tc at high doping levels can, however, only be understood by analyzing the magnetic tendencies, which evolve from stripe-type at low doping to bicollinear at high doping.

AB - The van-der-Waals gap of iron chalcogenide superconductors can be intercalated with a variety of inorganic and organic compounds that modify the electron doping level of the iron layers. In Lix(C3N2H10)0.37FeSe, a dome in the superconducting transition temperature Tc has been reported to occur in the doping range of x=0.06 to x=0.68. We use a combination of density functional theory and spin fluctuation theory to capture the evolution of superconducting transition temperatures theoretically. We clearly demonstrate how the changing electronic structure supports an increasing superconducting Tc. The suppression of Tc at high doping levels can, however, only be understood by analyzing the magnetic tendencies, which evolve from stripe-type at low doping to bicollinear at high doping.

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Importance of the Fermi surface and magnetic interactions for the superconducting dome in electron-doped FeSe intercalates

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