Unfolding the physics of URu2Si2 through silicon to phosphorus substitution

Unfolding the physics of URu2Si2 through silicon to phosphorus substitution

The heavy fermion compound URu2Si2displays a hidden order phase and superconductivity at low temperatures. Here, the authors perform substitution studies—partially replacing silicon with phosphorus—and study the effects on hidden order and superconductivity.

Bibliographic Details
Main Authors: A. Gallagher, K.-W. Chen, C. M. Moir, S. K. Cary, F. Kametani, N. Kikugawa, D. Graf, T. E. Albrecht-Schmitt, S. C. Riggs, A. Shekhter, R. E. Baumbach
Format: Article
Language:English
Published: Nature Publishing Group 2016-02-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms10712
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spelling doaj-93d287b062ec472aadf9dbb2972a48b42021-05-11T10:57:11ZengNature Publishing GroupNature Communications2041-17232016-02-01711510.1038/ncomms10712Unfolding the physics of URu2Si2 through silicon to phosphorus substitutionA. Gallagher0K.-W. Chen1C. M. Moir2S. K. Cary3F. Kametani4N. Kikugawa5D. Graf6T. E. Albrecht-Schmitt7S. C. Riggs8A. Shekhter9R. E. Baumbach10National High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityDepartment of Chemistry and Biochemistry, Florida State UniversityApplied Superconductivity Center, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityDepartment of Chemistry and Biochemistry, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityThe heavy fermion compound URu2Si2displays a hidden order phase and superconductivity at low temperatures. Here, the authors perform substitution studies—partially replacing silicon with phosphorus—and study the effects on hidden order and superconductivity.https://doi.org/10.1038/ncomms10712
collection DOAJ
language English
format Article
sources DOAJ
author A. Gallagher
K.-W. Chen
C. M. Moir
S. K. Cary
F. Kametani
N. Kikugawa
D. Graf
T. E. Albrecht-Schmitt
S. C. Riggs
A. Shekhter
R. E. Baumbach
spellingShingle A. Gallagher
K.-W. Chen
C. M. Moir
S. K. Cary
F. Kametani
N. Kikugawa
D. Graf
T. E. Albrecht-Schmitt
S. C. Riggs
A. Shekhter
R. E. Baumbach
Unfolding the physics of URu2Si2 through silicon to phosphorus substitution
Nature Communications
author_facet A. Gallagher
K.-W. Chen
C. M. Moir
S. K. Cary
F. Kametani
N. Kikugawa
D. Graf
T. E. Albrecht-Schmitt
S. C. Riggs
A. Shekhter
R. E. Baumbach
author_sort A. Gallagher
title Unfolding the physics of URu2Si2 through silicon to phosphorus substitution
title_short Unfolding the physics of URu2Si2 through silicon to phosphorus substitution
title_full Unfolding the physics of URu2Si2 through silicon to phosphorus substitution
title_fullStr Unfolding the physics of URu2Si2 through silicon to phosphorus substitution
title_full_unstemmed Unfolding the physics of URu2Si2 through silicon to phosphorus substitution
title_sort unfolding the physics of uru2si2 through silicon to phosphorus substitution
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-02-01
description The heavy fermion compound URu2Si2displays a hidden order phase and superconductivity at low temperatures. Here, the authors perform substitution studies—partially replacing silicon with phosphorus—and study the effects on hidden order and superconductivity.
url https://doi.org/10.1038/ncomms10712
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