Magnetocaloric effect and spin-strain coupling in the spin-nematic state of LiCuVO_{4}

M. Gen; T. Nomura; D. I. Gorbunov; S. Yasin; P. T. Cong; C. Dong; Y. Kohama; E. L. Green; J. M. Law; M. S. Henriques; J. Wosnitza; A. A. Zvyagin; V. O. Cheranovskii; R. K. Kremer; S. Zherlitsyn

doi:10.1103/PhysRevResearch.1.033065

Physical Review Research (Oct 2019)

Magnetocaloric effect and spin-strain coupling in the spin-nematic state of LiCuVO_{4}

M. Gen,
T. Nomura,
D. I. Gorbunov,
S. Yasin,
P. T. Cong,
C. Dong,
Y. Kohama,
E. L. Green,
J. M. Law,
M. S. Henriques,
J. Wosnitza,
A. A. Zvyagin,
V. O. Cheranovskii,
R. K. Kremer,
S. Zherlitsyn

Affiliations

M. Gen
T. Nomura
D. I. Gorbunov
S. Yasin
P. T. Cong
C. Dong
Y. Kohama
E. L. Green
J. M. Law
M. S. Henriques
J. Wosnitza
A. A. Zvyagin
V. O. Cheranovskii
R. K. Kremer
S. Zherlitsyn

DOI: https://doi.org/10.1103/PhysRevResearch.1.033065
Journal volume & issue: Vol. 1, no. 3
p. 033065

Abstract

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We report on the magnetocaloric effect and ultrasound studies of the frustrated quasi-one-dimensional spin-1/2 compound LiCuVO_{4}, evidencing a spin-nematic state. The magnetic Grüneisen parameter diverges at the transition to the spin-nematic phase, μ_{0}H_{c3}≈40 T, showing quantum criticality accompanied by entropy accumulation. The observed high-field anomalies in the acoustic properties clearly evidence a strong involvement of the lattice in the spin dynamics. The theoretical approach, based on exchange-striction coupling with dipolar and quadrupolar contributions, suggests that the spin-dipole-strain and quadrupole-strain interactions govern the spin-nematicity in LiCuVO_{4}.

Published in Physical Review Research

ISSN: 2643-1564 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prresearch/

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