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Pressure-tuning of α-RuCl3 towards a quantum spin liquid

Q. Stahl, T. Ritschel (), G. Garbarino, F. Cova, A. Isaeva, T. Doert and J. Geck ()
Additional contact information
Q. Stahl: Technische Universität Dresden
T. Ritschel: Technische Universität Dresden
G. Garbarino: European Synchrotron Radiation Facility
F. Cova: European Synchrotron Radiation Facility
A. Isaeva: Technische Universität Dresden
T. Doert: Technische Universität Dresden
J. Geck: Technische Universität Dresden

Nature Communications, 2024, vol. 15, issue 1, 1-8

Abstract: Abstract The layered material α-RuCl3 is a promising candidate to realize the Kitaev quantum spin liquid (QSL) state. However, at ambient pressure, deviations from the perfect Kitaev geometry prevent the existence of the QSL state at low temperatures. Here we present the discovery of a pressure-induced high-symmetry phase in α-RuCl3, which creates close to ideal conditions for the emergence of a QSL. Employing a novel approach based on Bragg and diffuse scattering of synchrotron radiation, we reveal a pressure-induced reorganization of the RuCl3-layers. Most importantly, this reorganization affects the structure of the layers themselves, which acquire a high trigonal symmetry. For this trigonal phase the largest ratio between the Kitaev (K) and the Heisenberg exchange (J) ever encountered is found: K/J = 124. Additionally, we demonstrate that this phase can also be stabilized by a slight biaxial pressure. This not only resolves the conflicting reports of low-temperature structures in the literature, but also facilitates the investigation of the high-symmetry phase and its potential QSL using a range of experimental techniques.

Date: 2024
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DOI: 10.1038/s41467-024-52169-w

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