Classical Monte Carlo simulations of an extended Kitaev model on the triangular lattice uncover a ferrichiral skyrmion phase with sublattice-resolved chirality that is stable without external fields.
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Broad multi-spinon continua emerge in the high-energy spectra of ordered Kitaev magnets, offering a mechanism for spectral broadening distinct from conventional magnon decay.
Advocates treating numerical, analytical, and experimental efforts as equal contributors to progress in quantum magnetism instead of viewing them as supporting tools.
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Ferrichiral skyrmions with sublattice-resolved chirality in extended Kitaev model in triangular lattice
Classical Monte Carlo simulations of an extended Kitaev model on the triangular lattice uncover a ferrichiral skyrmion phase with sublattice-resolved chirality that is stable without external fields.
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Proximate quantum spin liquids and Majorana continua in magnetically ordered Kitaev magnets
Broad multi-spinon continua emerge in the high-energy spectra of ordered Kitaev magnets, offering a mechanism for spectral broadening distinct from conventional magnon decay.
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Theoretical and Numerical Efforts in Understanding Modern Experiments on Quantum Magnetism
Advocates treating numerical, analytical, and experimental efforts as equal contributors to progress in quantum magnetism instead of viewing them as supporting tools.