Giant phonon anomalies in the proximate Kitaev quantum spin liquid α-RuCl3

Li, Haoxiang; Zhang, T. T.; Said, A.; Fabbris, G.; Mazzone, D. G.; Yan, J. Q.; Mandrus, D.; Halász, Gábor B.; Okamoto, S.; Murakami, S.; Dean, M. P. M.; Lee, H. N.; Miao, H.

Giant phonon anomalies in the proximate Kitaev quantum spin liquid α-RuCl3

Haoxiang Li, T. T. Zhang, A. Said, G. Fabbris, D. G. Mazzone, J. Q. Yan, D. Mandrus, Gábor B. Halász, S. Okamoto, S. Murakami, M. P. M. Dean, H. N. Lee and H. Miao ()
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Haoxiang Li: Oak Ridge National Laboratory
T. T. Zhang: Tokyo Institute of Technology, Okayama
A. Said: Argonne National Laboratory
G. Fabbris: Argonne National Laboratory
D. G. Mazzone: Brookhaven National Laboratory
J. Q. Yan: Oak Ridge National Laboratory
D. Mandrus: Oak Ridge National Laboratory
Gábor B. Halász: Oak Ridge National Laboratory
S. Okamoto: Oak Ridge National Laboratory
S. Murakami: Tokyo Institute of Technology, Okayama
M. P. M. Dean: Brookhaven National Laboratory
H. N. Lee: Oak Ridge National Laboratory
H. Miao: Oak Ridge National Laboratory

Nature Communications, 2021, vol. 12, issue 1, 1-7

Abstract: Abstract The Kitaev quantum spin liquid epitomizes an entangled topological state, for which two flavors of fractionalized low-energy excitations are predicted: the itinerant Majorana fermion and the Z2 gauge flux. It was proposed recently that fingerprints of fractional excitations are encoded in the phonon spectra of Kitaev quantum spin liquids through a novel fractional-excitation-phonon coupling. Here, we detect anomalous phonon effects in α-RuCl3 using inelastic X-ray scattering with meV resolution. At high temperature, we discover interlaced optical phonons intercepting a transverse acoustic phonon between 3 and 7 meV. Upon decreasing temperature, the optical phonons display a large intensity enhancement near the Kitaev energy, JK~8 meV, that coincides with a giant acoustic phonon softening near the Z2 gauge flux energy scale. These phonon anomalies signify the coupling of phonon and Kitaev magnetic excitations in α-RuCl3 and demonstrates a proof-of-principle method to detect anomalous excitations in topological quantum materials.

Date: 2021
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DOI: 10.1038/s41467-021-23826-1

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