Transport signatures of spatially modulated electronic nematic phases

Electronic nematic phases are broadly characterized by spontaneously broken rotational symmetry. Although they have been widely recognized in the context of high temperature cuprates, bilayer ruthenates, and iron-based superconductors, the focus so far has been exclusively on the uniform nematic pha...

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Veröffentlicht in:	arXiv.org 2013-02
Hauptverfasser:	Hae-Young, Kee, Puetter, Christoph M, Stroud, David
Format:	Artikel
Sprache:	eng
Schlagworte:	Cuprates Electrical resistivity High temperature Modulation Phases Physics - Strongly Correlated Electrons Spin density waves Stability Tensors
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description	Electronic nematic phases are broadly characterized by spontaneously broken rotational symmetry. Although they have been widely recognized in the context of high temperature cuprates, bilayer ruthenates, and iron-based superconductors, the focus so far has been exclusively on the uniform nematic phase. Recently, however, it was proposed that on a square lattice a nematic instability in the d-wave charge channel could lead to a spatially modulated nematic state, where the modulation vector q is determined by the relative location of the Fermi level to the van Hove singularity. Interestingly, this finite-q nematic phase has also been identified as an additional leading instability that is as strong as the superconducting instability near the onset of spin density wave order. Here we study the electrical conductivity tensor in the modulated nematic phase for a general modulation vector. Our results can be used to identify modulated nematic phases in correlated materials.
doi_str_mv	10.48550/arxiv.1302.5117
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subjects	Cuprates Electrical resistivity High temperature Modulation Phases Physics - Strongly Correlated Electrons Spin density waves Stability Tensors
title	Transport signatures of spatially modulated electronic nematic phases
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