Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors

Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors

The overlap between different phases has hindered the understanding of how each phase affects superconductivity in FeSe. Here, Matsuura et al. achieve a complete separation of non-magnetic nematic and antiferromagnetic phases for FeSe1-x S x , observing a tetragonal phase in between with a strikingl...

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Main Authors: K. Matsuura, Y. Mizukami, Y. Arai, Y. Sugimura, N. Maejima, A. Machida, T. Watanuki, T. Fukuda, T. Yajima, Z. Hiroi, K. Y. Yip, Y. C. Chan, Q. Niu, S. Hosoi, K. Ishida, K. Mukasa, S. Kasahara, J.-G. Cheng, S. K. Goh, Y. Matsuda, Y. Uwatoko, T. Shibauchi
Format: Article
Language:English
Published: Nature Publishing Group 2017-10-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-017-01277-x
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spelling doaj-13a2772037f74697accd8dd9ff2077ab2021-05-11T07:55:11ZengNature Publishing GroupNature Communications2041-17232017-10-01811610.1038/s41467-017-01277-xMaximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductorsK. Matsuura0Y. Mizukami1Y. Arai2Y. Sugimura3N. Maejima4A. Machida5T. Watanuki6T. Fukuda7T. Yajima8Z. Hiroi9K. Y. Yip10Y. C. Chan11Q. Niu12S. Hosoi13K. Ishida14K. Mukasa15S. Kasahara16J.-G. Cheng17S. K. Goh18Y. Matsuda19Y. Uwatoko20T. Shibauchi21Department of Advanced Materials Science, University of TokyoDepartment of Advanced Materials Science, University of TokyoDepartment of Advanced Materials Science, University of TokyoDepartment of Advanced Materials Science, University of TokyoSynchrotron Radiation Research Center, National Institutes for Quantum and Radiological Science and TechnologySynchrotron Radiation Research Center, National Institutes for Quantum and Radiological Science and TechnologySynchrotron Radiation Research Center, National Institutes for Quantum and Radiological Science and TechnologyMaterials Sciences Research Center, Japan Atomic Energy Agency (SPring-8/JAEA)Institute for Solid State Physics, The University of TokyoInstitute for Solid State Physics, The University of TokyoDepartment of Physics, The Chinese University of Hong KongDepartment of Physics, The Chinese University of Hong KongDepartment of Physics, The Chinese University of Hong KongDepartment of Advanced Materials Science, University of TokyoDepartment of Advanced Materials Science, University of TokyoDepartment of Advanced Materials Science, University of TokyoDepartment of Physics, Kyoto UniversityBeijing National Laboratory for Condensed Matter Physics and Institute of Physics, Chinese Academy of SciencesDepartment of Physics, The Chinese University of Hong KongDepartment of Physics, Kyoto UniversityInstitute for Solid State Physics, The University of TokyoDepartment of Advanced Materials Science, University of TokyoThe overlap between different phases has hindered the understanding of how each phase affects superconductivity in FeSe. Here, Matsuura et al. achieve a complete separation of non-magnetic nematic and antiferromagnetic phases for FeSe1-x S x , observing a tetragonal phase in between with a strikingly enhanced T c.https://doi.org/10.1038/s41467-017-01277-x
collection DOAJ
language English
format Article
sources DOAJ
author K. Matsuura
Y. Mizukami
Y. Arai
Y. Sugimura
N. Maejima
A. Machida
T. Watanuki
T. Fukuda
T. Yajima
Z. Hiroi
K. Y. Yip
Y. C. Chan
Q. Niu
S. Hosoi
K. Ishida
K. Mukasa
S. Kasahara
J.-G. Cheng
S. K. Goh
Y. Matsuda
Y. Uwatoko
T. Shibauchi
spellingShingle K. Matsuura
Y. Mizukami
Y. Arai
Y. Sugimura
N. Maejima
A. Machida
T. Watanuki
T. Fukuda
T. Yajima
Z. Hiroi
K. Y. Yip
Y. C. Chan
Q. Niu
S. Hosoi
K. Ishida
K. Mukasa
S. Kasahara
J.-G. Cheng
S. K. Goh
Y. Matsuda
Y. Uwatoko
T. Shibauchi
Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors
Nature Communications
author_facet K. Matsuura
Y. Mizukami
Y. Arai
Y. Sugimura
N. Maejima
A. Machida
T. Watanuki
T. Fukuda
T. Yajima
Z. Hiroi
K. Y. Yip
Y. C. Chan
Q. Niu
S. Hosoi
K. Ishida
K. Mukasa
S. Kasahara
J.-G. Cheng
S. K. Goh
Y. Matsuda
Y. Uwatoko
T. Shibauchi
author_sort K. Matsuura
title Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors
title_short Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors
title_full Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors
title_fullStr Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors
title_full_unstemmed Maximizing T c by tuning nematicity and magnetism in FeSe1−x S x superconductors
title_sort maximizing t c by tuning nematicity and magnetism in fese1−x s x superconductors
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2017-10-01
description The overlap between different phases has hindered the understanding of how each phase affects superconductivity in FeSe. Here, Matsuura et al. achieve a complete separation of non-magnetic nematic and antiferromagnetic phases for FeSe1-x S x , observing a tetragonal phase in between with a strikingly enhanced T c.
url https://doi.org/10.1038/s41467-017-01277-x
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