Nematic Correlation Length in Iron-Based Superconductors Probed by Inelastic X-Ray Scattering

A. M. Merritt; F. Weber; J. P. Castellan; Th Wolf; D. Ishikawa; A. H. Said; A. Alatas; R. M. Fernandes; A. Q.R. Baron; D. Reznik

doi:10.1103/PhysRevLett.124.157001

Nematic Correlation Length in Iron-Based Superconductors Probed by Inelastic X-Ray Scattering

A. M. Merritt, F. Weber, J. P. Castellan, Th Wolf, D. Ishikawa, A. H. Said, A. Alatas, R. M. Fernandes, A. Q.R. Baron, D. Reznik

Physics and Astronomy (Twin Cities)

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Abstract

Nematicity is ubiquitous in electronic phases of high-Tc superconductors, particularly in the Fe-based systems. We used inelastic x-ray scattering to extract the temperature-dependent nematic correlation length ζ from the anomalous softening of acoustic phonon modes in FeSe, underdoped Ba(Fe0.97Co0.03)2As2, and optimally doped Ba(Fe0.94Co0.06)2As2. In all cases, we find that ζ is well described by a power law (T-T0)-1/2 extending over a wide temperature range. Combined with the previously reported Curie-Weiss behavior of the nematic susceptibility, these results point to the mean-field character of the nematic transition, which we attribute to a sizable nematoelastic coupling that is likely detrimental to superconductivity.

Original language	English (US)
Article number	157001
Journal	Physical review letters
Volume	124
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.124.157001
State	Published - Apr 17 2020

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© 2020 American Physical Society. © 2020 American Physical Society.

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title = "Nematic Correlation Length in Iron-Based Superconductors Probed by Inelastic X-Ray Scattering",

abstract = "Nematicity is ubiquitous in electronic phases of high-Tc superconductors, particularly in the Fe-based systems. We used inelastic x-ray scattering to extract the temperature-dependent nematic correlation length ζ from the anomalous softening of acoustic phonon modes in FeSe, underdoped Ba(Fe0.97Co0.03)2As2, and optimally doped Ba(Fe0.94Co0.06)2As2. In all cases, we find that ζ is well described by a power law (T-T0)-1/2 extending over a wide temperature range. Combined with the previously reported Curie-Weiss behavior of the nematic susceptibility, these results point to the mean-field character of the nematic transition, which we attribute to a sizable nematoelastic coupling that is likely detrimental to superconductivity.",

author = "Merritt, {A. M.} and F. Weber and Castellan, {J. P.} and Th Wolf and D. Ishikawa and Said, {A. H.} and A. Alatas and Fernandes, {R. M.} and Baron, {A. Q.R.} and D. Reznik",

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AU - Merritt, A. M.

AU - Weber, F.

AU - Castellan, J. P.

AU - Wolf, Th

AU - Ishikawa, D.

AU - Said, A. H.

AU - Alatas, A.

AU - Fernandes, R. M.

AU - Baron, A. Q.R.

AU - Reznik, D.

PY - 2020/4/17

Y1 - 2020/4/17

N2 - Nematicity is ubiquitous in electronic phases of high-Tc superconductors, particularly in the Fe-based systems. We used inelastic x-ray scattering to extract the temperature-dependent nematic correlation length ζ from the anomalous softening of acoustic phonon modes in FeSe, underdoped Ba(Fe0.97Co0.03)2As2, and optimally doped Ba(Fe0.94Co0.06)2As2. In all cases, we find that ζ is well described by a power law (T-T0)-1/2 extending over a wide temperature range. Combined with the previously reported Curie-Weiss behavior of the nematic susceptibility, these results point to the mean-field character of the nematic transition, which we attribute to a sizable nematoelastic coupling that is likely detrimental to superconductivity.

AB - Nematicity is ubiquitous in electronic phases of high-Tc superconductors, particularly in the Fe-based systems. We used inelastic x-ray scattering to extract the temperature-dependent nematic correlation length ζ from the anomalous softening of acoustic phonon modes in FeSe, underdoped Ba(Fe0.97Co0.03)2As2, and optimally doped Ba(Fe0.94Co0.06)2As2. In all cases, we find that ζ is well described by a power law (T-T0)-1/2 extending over a wide temperature range. Combined with the previously reported Curie-Weiss behavior of the nematic susceptibility, these results point to the mean-field character of the nematic transition, which we attribute to a sizable nematoelastic coupling that is likely detrimental to superconductivity.

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Nematic Correlation Length in Iron-Based Superconductors Probed by Inelastic X-Ray Scattering

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