K2Mn(SeO3)2 shows multiple field-dependent magnetic phases whose excitation spectra, including a high-energy continuum, are explained by non-linear spin wave theory that includes magnon interactions even at large S=5/2.
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Spin supersolids featuring coexisting longitudinal spin order breaking lattice symmetry and transverse order breaking spin U(1) symmetry have been established in frustrated quantum magnets through consistent experimental and numerical evidence.
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Dynamics and thermodynamics of the S = 5/2 almost Heisenberg triangular lattice antiferromagnet K2Mn(SeO3)2
K2Mn(SeO3)2 shows multiple field-dependent magnetic phases whose excitation spectra, including a high-energy continuum, are explained by non-linear spin wave theory that includes magnon interactions even at large S=5/2.
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Emergent Spin Supersolids in Frustrated Quantum Materials
Spin supersolids featuring coexisting longitudinal spin order breaking lattice symmetry and transverse order breaking spin U(1) symmetry have been established in frustrated quantum magnets through consistent experimental and numerical evidence.