Nonadiabatic theory of phonon magnetic moments separates Fermi-sea and surface terms, reduces to adiabatic limit in gapped systems at low frequency, and reproduces experimental magnitudes in PbSnTe via Fermi-surface enhancement.
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Circularly polarized phonons on honeycomb lattice produce Haldane-type mass term via effective NNN hopping, driving transition to Chern insulator with emergent magnetizations.
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Nonadiabatic Theory of Phonon Magnetic Moments in Insulators and Metals
Nonadiabatic theory of phonon magnetic moments separates Fermi-sea and surface terms, reduces to adiabatic limit in gapped systems at low frequency, and reproduces experimental magnitudes in PbSnTe via Fermi-surface enhancement.
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Magnetism and Topology from Circularly Polarized Phonon Floquet Engineering
Circularly polarized phonons on honeycomb lattice produce Haldane-type mass term via effective NNN hopping, driving transition to Chern insulator with emergent magnetizations.