Magnetostriction reveals orthorhombic distortion in tetragonal Gd compounds

We report detailed thermal expansion and magnetostriction experiments on GdCoIn5 and GdRh(In1−xCdx)5 (x=0 and 0.025) single-crystal samples that show a sudden change in the dilation at a field B★ for temperatures below the Néel transition temperature TN. We present a first-principles model including...

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Published in:Physical review. B 2019-04, Vol.99 (13), p.134406, Article 134406
Main Authors: Betancourth, D., Correa, V. F., Facio, Jorge I., Fernández, J., Vildosola, V., Lora-Serrano, R., Cadogan, J. M., Aligia, A. A., Cornaglia, Pablo S., García, D. J.
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Language:English
Subjects:
Dependence
Distortion
First principles
Gadolinium
Magnetic permeability
Magnetic structure
Magnetostriction
Metastable state
Phenomenology
Single crystals
Thermal expansion
Transition temperature
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cited_by cdi_FETCH-LOGICAL-c275t-f0ae37e92052144a8e8944c1260f16ef52724c7ad539f881f731e8bbf3ebd80e3
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container_issue 13
container_start_page 134406
container_title Physical review. B
container_volume 99
creator Betancourth, D.
Correa, V. F.
Facio, Jorge I.
Fernández, J.
Vildosola, V.
Lora-Serrano, R.
Cadogan, J. M.
Aligia, A. A.
Cornaglia, Pablo S.
García, D. J.
description We report detailed thermal expansion and magnetostriction experiments on GdCoIn5 and GdRh(In1−xCdx)5 (x=0 and 0.025) single-crystal samples that show a sudden change in the dilation at a field B★ for temperatures below the Néel transition temperature TN. We present a first-principles model including crystal-field effects, dipolar and exchange interactions, and the dependence of the latter with lattice distortions in order to fully account for the magnetostriction and magnetic susceptibility data. The mean-field solution of the model shows that a transition between metastable states occurs at the field B★. It also indicates that two degenerate phases should coexist at temperatures below TN, which may explain the lack of observation, in high-resolution x-ray experiments, of an orthorhombic distortion at the Néel transition, even though the experimentally determined magnetic structure breaks the tetragonal symmetry and the magnetoelastic coupling from our model is significant. These conclusions could be extended to other tetragonal Gd-based compounds that present the same phenomenology.
doi_str_mv 10.1103/PhysRevB.99.134406
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subjects Dependence
Distortion
First principles
Gadolinium
Magnetic permeability
Magnetic structure
Magnetostriction
Metastable state
Phenomenology
Single crystals
Thermal expansion
Transition temperature
title Magnetostriction reveals orthorhombic distortion in tetragonal Gd compounds
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