Spin-strain interactions under hydrostatic pressure in α-RuCl₃
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We investigate the effects of hydrostatic pressure on $\alpha$-RuCl$_3$, a prototypical material for the Kitaev spin model on a honeycomb lattice with a possible spin-liquid ground state. Using ultrasound measurements at pressures up to 1.16 GPa, we reveal significant modifications of the acoustic properties and the $H$-$T$ phase diagram of this material. Hydrostatic pressure suppresses the three-dimensional magnetic order and induces a dimerization transition at higher pressures. At low pressures, the sound attenuation exhibits a linear temperature dependence, while above 0.28 GPa, it becomes nearly temperature independent, suggesting a shift in the phonon scattering regime dominated by Majorana fermions. These findings provide new insights into spin-strain interactions in Kitaev magnets and deliver a detailed characterization of the $H$-$T$ phase diagram of $\alpha$-RuCl$_3$ under hydrostatic pressure.
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Magnetostriction in the $J$-$K$-$\Gamma$ model: Application of the numerical linked cluster expansion
NLCE calculations on the J-K-Γ model for α-RuCl3 show that the linear magnetostriction coefficient perpendicular to the plane exhibits a dip-like feature tied to the suppression of magnetic order.
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