Inhomogeneous charge distribution in a self-doped EuFBiS2 superconductor

T. Sugimoto; E. Paris; K. Terashima; A. Barinov; A. Giampietri; T. Wakita; T. Yokoya; J. Kajitani; R. Higashinaka; T. D. Matsuda; Y. Aoki; T. Mizokawa; N. L. Saini

doi:10.1103/PhysRevB.100.064520

Inhomogeneous charge distribution in a self-doped EuFBiS2 superconductor

T. Sugimoto, E. Paris, K. Terashima, A. Barinov, A. Giampietri, T. Wakita, T. Yokoya, J. Kajitani, R. Higashinaka, T. D. Matsuda, Y. Aoki, T. Mizokawa, N. L. Saini

School of Advanced Science and Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Stoichiometric EuFBiS 2 with mixed valent Eu shows self-doped superconductivity at low temperatures due to the Eu-to-Bi charge transfer. The metallic/nonmetallic bistability of the BiS 2 layer can couple with the valence fluctuation of Eu and provide a highly susceptible electronic state. Here, we report space-resolved photoemission measurements on EuFBiS 2 revealing an inhomogeneous charge distribution with the coexistence of metallic and nonmetallic phases at mesoscopic length scales. Angle-resolved photoemission measurements using a submicron beam size have confirmed a clear Fermi surface around the zone boundaries in the metallic region, typically observed in a doped system, while it can be hardly seen in the nonmetallic region. Density functional theory calculations suggest that the out-of-plane S atom position in the structure is one of the important factors for the self-doping in this material.

Original language	English
Article number	064520
Journal	Physical Review B
Volume	100
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevB.100.064520
Publication status	Published - 2019 Aug 22

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.100.064520

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@article{436d45e306de40ebae65c673390bbd2c,

title = "Inhomogeneous charge distribution in a self-doped EuFBiS2 superconductor",

abstract = "Stoichiometric EuFBiS 2 with mixed valent Eu shows self-doped superconductivity at low temperatures due to the Eu-to-Bi charge transfer. The metallic/nonmetallic bistability of the BiS 2 layer can couple with the valence fluctuation of Eu and provide a highly susceptible electronic state. Here, we report space-resolved photoemission measurements on EuFBiS 2 revealing an inhomogeneous charge distribution with the coexistence of metallic and nonmetallic phases at mesoscopic length scales. Angle-resolved photoemission measurements using a submicron beam size have confirmed a clear Fermi surface around the zone boundaries in the metallic region, typically observed in a doped system, while it can be hardly seen in the nonmetallic region. Density functional theory calculations suggest that the out-of-plane S atom position in the structure is one of the important factors for the self-doping in this material.",

author = "T. Sugimoto and E. Paris and K. Terashima and A. Barinov and A. Giampietri and T. Wakita and T. Yokoya and J. Kajitani and R. Higashinaka and Matsuda, {T. D.} and Y. Aoki and T. Mizokawa and Saini, {N. L.}",

note = "Funding Information: The present work is part of the bilateral agreement between the Sapienza University of Rome and the University of Tokyo, including Waseda University, Tokyo Metropolitan University, and Okayama University. T.S. acknowledges the support from a JSPS Research Fellowship for Young Scientists. This work is partially supported by JSPS/MEXT KAKENHI (Grants No. 15H03693, No. 15H05884, No. 16J05692, No. 16K05454, No. H1503691, and No. 19H01839). Funding Information: The present work is part of the bilateral agreement between the Sapienza University of Rome and the University of Tokyo, including Waseda University, Tokyo Metropolitan University, and Okayama University. T.S. acknowledges the support from a JSPS Research Fellowship for Young Scientists. This work is partially supported by JSPS/MEXT KAKENHI (Grants No. 15H03693, No. 15H05884, No. 16J05692, No. 16K05454, No. H1503691, and No. 19H01839) Publisher Copyright: {\textcopyright} 2019 American Physical Society.",

year = "2019",

month = aug,

day = "22",

doi = "10.1103/PhysRevB.100.064520",

language = "English",

volume = "100",

journal = "Physical Review B-Condensed Matter",

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T1 - Inhomogeneous charge distribution in a self-doped EuFBiS2 superconductor

AU - Sugimoto, T.

AU - Paris, E.

AU - Terashima, K.

AU - Barinov, A.

AU - Giampietri, A.

AU - Wakita, T.

AU - Yokoya, T.

AU - Kajitani, J.

AU - Higashinaka, R.

AU - Matsuda, T. D.

AU - Aoki, Y.

AU - Mizokawa, T.

AU - Saini, N. L.

N1 - Funding Information: The present work is part of the bilateral agreement between the Sapienza University of Rome and the University of Tokyo, including Waseda University, Tokyo Metropolitan University, and Okayama University. T.S. acknowledges the support from a JSPS Research Fellowship for Young Scientists. This work is partially supported by JSPS/MEXT KAKENHI (Grants No. 15H03693, No. 15H05884, No. 16J05692, No. 16K05454, No. H1503691, and No. 19H01839). Funding Information: The present work is part of the bilateral agreement between the Sapienza University of Rome and the University of Tokyo, including Waseda University, Tokyo Metropolitan University, and Okayama University. T.S. acknowledges the support from a JSPS Research Fellowship for Young Scientists. This work is partially supported by JSPS/MEXT KAKENHI (Grants No. 15H03693, No. 15H05884, No. 16J05692, No. 16K05454, No. H1503691, and No. 19H01839) Publisher Copyright: © 2019 American Physical Society.

PY - 2019/8/22

Y1 - 2019/8/22

N2 - Stoichiometric EuFBiS 2 with mixed valent Eu shows self-doped superconductivity at low temperatures due to the Eu-to-Bi charge transfer. The metallic/nonmetallic bistability of the BiS 2 layer can couple with the valence fluctuation of Eu and provide a highly susceptible electronic state. Here, we report space-resolved photoemission measurements on EuFBiS 2 revealing an inhomogeneous charge distribution with the coexistence of metallic and nonmetallic phases at mesoscopic length scales. Angle-resolved photoemission measurements using a submicron beam size have confirmed a clear Fermi surface around the zone boundaries in the metallic region, typically observed in a doped system, while it can be hardly seen in the nonmetallic region. Density functional theory calculations suggest that the out-of-plane S atom position in the structure is one of the important factors for the self-doping in this material.

AB - Stoichiometric EuFBiS 2 with mixed valent Eu shows self-doped superconductivity at low temperatures due to the Eu-to-Bi charge transfer. The metallic/nonmetallic bistability of the BiS 2 layer can couple with the valence fluctuation of Eu and provide a highly susceptible electronic state. Here, we report space-resolved photoemission measurements on EuFBiS 2 revealing an inhomogeneous charge distribution with the coexistence of metallic and nonmetallic phases at mesoscopic length scales. Angle-resolved photoemission measurements using a submicron beam size have confirmed a clear Fermi surface around the zone boundaries in the metallic region, typically observed in a doped system, while it can be hardly seen in the nonmetallic region. Density functional theory calculations suggest that the out-of-plane S atom position in the structure is one of the important factors for the self-doping in this material.

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DO - 10.1103/PhysRevB.100.064520

M3 - Article

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JF - Physical Review B-Condensed Matter

IS - 6

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ER -

Inhomogeneous charge distribution in a self-doped EuFBiS2 superconductor

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