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Main Authors: Hong, X. C., Sauerland, S., Wang, L., Scaravaggi, F., Wolter, A. U. B., Kappenberger, R., Aswartham, S., Wurmehl, S., Sykora, S., Caglieris, F., Büchner, B., Hess, C., Klingeler, R.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.11955
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author Hong, X. C.
Sauerland, S.
Wang, L.
Scaravaggi, F.
Wolter, A. U. B.
Kappenberger, R.
Aswartham, S.
Wurmehl, S.
Sykora, S.
Caglieris, F.
Büchner, B.
Hess, C.
Klingeler, R.
author_facet Hong, X. C.
Sauerland, S.
Wang, L.
Scaravaggi, F.
Wolter, A. U. B.
Kappenberger, R.
Aswartham, S.
Wurmehl, S.
Sykora, S.
Caglieris, F.
Büchner, B.
Hess, C.
Klingeler, R.
contents Nematicity in LaFeAsO single crystals is studied by means of high-resolution thermal expansion, shear modulus, and elastoresistivity measurements. A softening of the shear modulus $C_{\rm 66}$ towards the structural phase transition at $T_{\rm S}$ is observed. In addition, a similar Curie-Weiss-like divergence of the nematic susceptibilities is found in the temperature dependence of both $χ^{sh}$ and $χ^{er}$, which are deduced from the shear modulus (sh) and the elastoresistivity (er) studies, respectively. These observations provide evidence for an electronic origin of nematicity in LaFeAsO. The characteristic energy of the coupling between the lattice and the electronic degrees of freedom is deduced to $\sim$30~K. The comparison to corresponding measurements on BaFe$_2$As$_2$ single crystals reveals a very similar temperature dependence of the shear modulus but yields contrasting results for $χ^{er}$ : In BaFe$_2$As$_2$, $χ^{er}$ diverges similarly as the uncoupled nematicity deduced from the shear modulus data as it is expected from the underlying Landau theory. In contrast, the Weiss temperatures of $χ^{er}$ and $χ^{sh}$ are significantly different in LaFeAsO. This difference is at odds with the commonly anticipated theories of resistivity anisotropy and electronic nematicity in iron pnictides.
format Preprint
id arxiv_https___arxiv_org_abs_2605_11955
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Nematicity in LaFeAsO single crystals studied by elastoresistance, high-resolution thermal expansion and shear-modulus measurements
Hong, X. C.
Sauerland, S.
Wang, L.
Scaravaggi, F.
Wolter, A. U. B.
Kappenberger, R.
Aswartham, S.
Wurmehl, S.
Sykora, S.
Caglieris, F.
Büchner, B.
Hess, C.
Klingeler, R.
Superconductivity
Strongly Correlated Electrons
Nematicity in LaFeAsO single crystals is studied by means of high-resolution thermal expansion, shear modulus, and elastoresistivity measurements. A softening of the shear modulus $C_{\rm 66}$ towards the structural phase transition at $T_{\rm S}$ is observed. In addition, a similar Curie-Weiss-like divergence of the nematic susceptibilities is found in the temperature dependence of both $χ^{sh}$ and $χ^{er}$, which are deduced from the shear modulus (sh) and the elastoresistivity (er) studies, respectively. These observations provide evidence for an electronic origin of nematicity in LaFeAsO. The characteristic energy of the coupling between the lattice and the electronic degrees of freedom is deduced to $\sim$30~K. The comparison to corresponding measurements on BaFe$_2$As$_2$ single crystals reveals a very similar temperature dependence of the shear modulus but yields contrasting results for $χ^{er}$ : In BaFe$_2$As$_2$, $χ^{er}$ diverges similarly as the uncoupled nematicity deduced from the shear modulus data as it is expected from the underlying Landau theory. In contrast, the Weiss temperatures of $χ^{er}$ and $χ^{sh}$ are significantly different in LaFeAsO. This difference is at odds with the commonly anticipated theories of resistivity anisotropy and electronic nematicity in iron pnictides.
title Nematicity in LaFeAsO single crystals studied by elastoresistance, high-resolution thermal expansion and shear-modulus measurements
topic Superconductivity
Strongly Correlated Electrons
url https://arxiv.org/abs/2605.11955