High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity

High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity

Despite studies in FeSe1−x S x , it is yet unconfirmed whether nematic fluctuation can induce superconductivity. Here, the authors study single crystals of FeSe1−x Te x showing enhanced superconductivity upon suppression of nematicity.

Bibliographic Details
Main Authors: K. Mukasa, K. Matsuura, M. Qiu, M. Saito, Y. Sugimura, K. Ishida, M. Otani, Y. Onishi, Y. Mizukami, K. Hashimoto, J. Gouchi, R. Kumai, Y. Uwatoko, T. Shibauchi
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-20621-2
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spelling doaj-a63915ef516f4a2a882d5380577bf7852021-01-17T12:11:59ZengNature Publishing GroupNature Communications2041-17232021-01-011211710.1038/s41467-020-20621-2High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivityK. Mukasa0K. Matsuura1M. Qiu2M. Saito3Y. Sugimura4K. Ishida5M. Otani6Y. Onishi7Y. Mizukami8K. Hashimoto9J. Gouchi10R. Kumai11Y. Uwatoko12T. Shibauchi13Department 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 TokyoDepartment of Advanced Materials Science, University of TokyoDepartment of Advanced Materials Science, University of TokyoDepartment of Applied Physics, University of TokyoDepartment of Applied Physics, University of TokyoDepartment of Advanced Materials Science, University of TokyoDepartment of Advanced Materials Science, University of TokyoInstitute for Solid State Physics, University of TokyoCondensed Matter Research Center and Photon Factory, IMSS, KEKInstitute for Solid State Physics, University of TokyoDepartment of Advanced Materials Science, University of TokyoDespite studies in FeSe1−x S x , it is yet unconfirmed whether nematic fluctuation can induce superconductivity. Here, the authors study single crystals of FeSe1−x Te x showing enhanced superconductivity upon suppression of nematicity.https://doi.org/10.1038/s41467-020-20621-2
collection DOAJ
language English
format Article
sources DOAJ
author K. Mukasa
K. Matsuura
M. Qiu
M. Saito
Y. Sugimura
K. Ishida
M. Otani
Y. Onishi
Y. Mizukami
K. Hashimoto
J. Gouchi
R. Kumai
Y. Uwatoko
T. Shibauchi
spellingShingle K. Mukasa
K. Matsuura
M. Qiu
M. Saito
Y. Sugimura
K. Ishida
M. Otani
Y. Onishi
Y. Mizukami
K. Hashimoto
J. Gouchi
R. Kumai
Y. Uwatoko
T. Shibauchi
High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity
Nature Communications
author_facet K. Mukasa
K. Matsuura
M. Qiu
M. Saito
Y. Sugimura
K. Ishida
M. Otani
Y. Onishi
Y. Mizukami
K. Hashimoto
J. Gouchi
R. Kumai
Y. Uwatoko
T. Shibauchi
author_sort K. Mukasa
title High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity
title_short High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity
title_full High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity
title_fullStr High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity
title_full_unstemmed High-pressure phase diagrams of FeSe1−x Te x : correlation between suppressed nematicity and enhanced superconductivity
title_sort high-pressure phase diagrams of fese1−x te x : correlation between suppressed nematicity and enhanced superconductivity
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-01-01
description Despite studies in FeSe1−x S x , it is yet unconfirmed whether nematic fluctuation can induce superconductivity. Here, the authors study single crystals of FeSe1−x Te x showing enhanced superconductivity upon suppression of nematicity.
url https://doi.org/10.1038/s41467-020-20621-2
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