Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5)

In the generic phase diagram of heavy fermion systems, tuning an external parameter such as hydrostatic or chemical pressure modifies the superconducting transition temperature. The superconducting phase forms a dome in the temperature—tuning parameter phase diagram, which is associated with a maxim...

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Autores principales: Howald, Ludovic, Stilp, Evelyn, de Réotier, Pierre Dalmas, Yaouanc, Alain, Raymond, Stéphane, Piamonteze, Cinthia, Lapertot, Gérard, Baines, Christopher, Keller, Hugo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2015
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4519736/
https://www.ncbi.nlm.nih.gov/pubmed/26224422
http://dx.doi.org/10.1038/srep12528
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author Howald, Ludovic
Stilp, Evelyn
de Réotier, Pierre Dalmas
Yaouanc, Alain
Raymond, Stéphane
Piamonteze, Cinthia
Lapertot, Gérard
Baines, Christopher
Keller, Hugo
author_facet Howald, Ludovic
Stilp, Evelyn
de Réotier, Pierre Dalmas
Yaouanc, Alain
Raymond, Stéphane
Piamonteze, Cinthia
Lapertot, Gérard
Baines, Christopher
Keller, Hugo
author_sort Howald, Ludovic
collection PubMed
description In the generic phase diagram of heavy fermion systems, tuning an external parameter such as hydrostatic or chemical pressure modifies the superconducting transition temperature. The superconducting phase forms a dome in the temperature—tuning parameter phase diagram, which is associated with a maximum of the superconducting pairing interaction. Proximity to antiferromagnetism suggests a relation between the disappearance of antiferromagnetic order and superconductivity. We combine muon spin rotation, neutron scattering, and x-ray absorption spectroscopy techniques to gain access to the magnetic and electronic structure of CeCo(In(1−x)Cd(x))(5) at different time scales. Different magnetic structures are obtained that indicate a magnetic order of itinerant character, coexisting with bulk superconductivity. The suppression of the antiferromagnetic order appears to be driven by a modification of the bandwidth/carrier concentration, implying that the electronic structure and consequently the interplay of superconductivity and magnetism is strongly affected by hydrostatic and chemical pressure.
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spelling pubmed-45197362015-08-05 Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5) Howald, Ludovic Stilp, Evelyn de Réotier, Pierre Dalmas Yaouanc, Alain Raymond, Stéphane Piamonteze, Cinthia Lapertot, Gérard Baines, Christopher Keller, Hugo Sci Rep Article In the generic phase diagram of heavy fermion systems, tuning an external parameter such as hydrostatic or chemical pressure modifies the superconducting transition temperature. The superconducting phase forms a dome in the temperature—tuning parameter phase diagram, which is associated with a maximum of the superconducting pairing interaction. Proximity to antiferromagnetism suggests a relation between the disappearance of antiferromagnetic order and superconductivity. We combine muon spin rotation, neutron scattering, and x-ray absorption spectroscopy techniques to gain access to the magnetic and electronic structure of CeCo(In(1−x)Cd(x))(5) at different time scales. Different magnetic structures are obtained that indicate a magnetic order of itinerant character, coexisting with bulk superconductivity. The suppression of the antiferromagnetic order appears to be driven by a modification of the bandwidth/carrier concentration, implying that the electronic structure and consequently the interplay of superconductivity and magnetism is strongly affected by hydrostatic and chemical pressure. Nature Publishing Group 2015-07-30 /pmc/articles/PMC4519736/ /pubmed/26224422 http://dx.doi.org/10.1038/srep12528 Text en Copyright © 2015, Macmillan Publishers Limited http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Article
Howald, Ludovic
Stilp, Evelyn
de Réotier, Pierre Dalmas
Yaouanc, Alain
Raymond, Stéphane
Piamonteze, Cinthia
Lapertot, Gérard
Baines, Christopher
Keller, Hugo
Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5)
title Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5)
title_full Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5)
title_fullStr Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5)
title_full_unstemmed Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5)
title_short Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In(1−x)Cd(x))(5)
title_sort evidence for coexistence of bulk superconductivity and itinerant antiferromagnetism in the heavy fermion system ceco(in(1−x)cd(x))(5)
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4519736/
https://www.ncbi.nlm.nih.gov/pubmed/26224422
http://dx.doi.org/10.1038/srep12528
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