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Journal article

Field-induced magnetic instability within a superconducting condensate

By Mazzone, Daniel Gabriel1; Raymond, Stephane2; Gavilano, Jorge Luis1; Ressouche, Eric2; Niedermayer, Christof1; Birk, Jonas Okkels3; Ouladdiaf, Bachir4; Bastien, Gael2; Knebel, Georg2; Aoki, Dai2; Lapertot, Gerard2; Kenzelmann, Michel1 ...and 2 more

From

Paul Scherrer Institute1

Université Grenoble Alpes2

Risø National Laboratory for Sustainable Energy, Technical University of Denmark3

Institut Laue-Langevin4

The application of magnetic fields, chemical substitution, or hydrostatic pressure to strongly correlated electron materials can stabilize electronic phases with different organizational principles. We present evidence for a fieldinduced quantum phase transition, in superconducting Nd0.05Ce0.95CoIn5, that separates two antiferromagnetic phases with identical magnetic symmetry.

At zero field, we find a spin-density wave that is suppressed at the critical field mu H-0* = 8 T. For H > H*, a spin-density phase emerges and shares many properties with the Q phase in CeCoIn5. These results suggest that the magnetic instability is not magnetically driven, and we propose that it is driven by a modification of superconducting condensate at H*.

Language: English
Publisher: American Association for the Advancement of Science
Year: 2017
Pages: e1602055
ISSN: 23752548
Types: Journal article
DOI: 10.1126/sciadv.1602055
ORCIDs: 0000-0002-7128-4149 , 0000-0003-3139-7488 , 0000-0001-6023-478X and 0000-0001-7913-4826
Keywords

Condensed Matter Physics Magnetic Fields Models, Theoretical Superconductivity diffraction low temperature physics magnetism neutron scattering quantum phase transitions scaling strongly correlated electron systems superconductivity

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