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Literature DB >> 25742938

Evidence for a nematic component to the hidden-order parameter in URu2Si2 from differential elastoresistance measurements.

Scott C Riggs¹, M C Shapiro¹, Akash V Maharaj², S Raghu², E D Bauer³, R E Baumbach³, P Giraldo-Gallo², Mark Wartenbe⁴, I R Fisher¹.

Abstract

For materials that harbour a continuous phase transition, the susceptibility of the material to various fields can be used to understand the nature of the fluctuating order and hence the nature of the ordered state. Here we use anisotropic biaxial strain to probe the nematic susceptibility of URu2Si2, a heavy fermion material for which the nature of the low temperature 'hidden order' state has defied comprehensive understanding for over 30 years. Our measurements reveal that the fluctuating order has a nematic component, confirming reports of twofold anisotropy in the broken symmetry state and strongly constraining theoretical models of the hidden-order phase.

Year: 2015 PMID： 25742938 DOI： 10.1038/ncomms7425

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

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Cited

5 in total

1. Direct bulk-sensitive probe of 5f symmetry in URu2Si2.

Authors: Martin Sundermann; Maurits W Haverkort; Stefano Agrestini; Ali Al-Zein; Marco Moretti Sala; Yingkai Huang; Mark Golden; Anne de Visser; Peter Thalmeier; Liu Hao Tjeng; Andrea Severing
Journal: Proc Natl Acad Sci U S A Date: 2016-11-21 Impact factor: 11.205

Evidence for a nematic component to the hidden-order parameter in URu2Si2 from differential elastoresistance measurements.

1. Direct bulk-sensitive probe of 5f symmetry in URu2Si2.

2. Magnetoelastoresistance in WTe₂: Exploring electronic structure and extremely large magnetoresistance under strain.

3. Field-induced spin-density wave beyond hidden order in URu₂Si₂.

4. Unfolding the physics of URu2Si2 through silicon to phosphorus substitution.

5. Divergence of the quadrupole-strain susceptibility of the electronic nematic system YbRu₂Ge₂.

Evidence for a nematic component to the hidden-order parameter in URu2Si2 from differential elastoresistance measurements.

1. Direct bulk-sensitive probe of 5f symmetry in URu2Si2.

2. Magnetoelastoresistance in WTe2: Exploring electronic structure and extremely large magnetoresistance under strain.

3. Field-induced spin-density wave beyond hidden order in URu2Si2.

4. Unfolding the physics of URu2Si2 through silicon to phosphorus substitution.

5. Divergence of the quadrupole-strain susceptibility of the electronic nematic system YbRu2Ge2.

2. Magnetoelastoresistance in WTe₂: Exploring electronic structure and extremely large magnetoresistance under strain.

3. Field-induced spin-density wave beyond hidden order in URu₂Si₂.

5. Divergence of the quadrupole-strain susceptibility of the electronic nematic system YbRu₂Ge₂.