Odd-parity altermagnetism reconstructs local topology, edge states, and optical spectra in the Chern-insulating phase of the Haldane-Hubbard model while preserving the total Chern number and quantized Hall conductivity.
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Linearly polarized light breaks spin-sector symmetry in d-wave altermagnets, inducing transitions from quantum spin Hall to spin-polarized Chern insulator to trivial states, with all anomalous transport coefficients showing d-wave angular dependence and some becoming quantized.
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The odd-parity altermagnetism induced reconstruction of the Chern-insulating phase in Haldane-Hubbard model
Odd-parity altermagnetism reconstructs local topology, edge states, and optical spectra in the Chern-insulating phase of the Haldane-Hubbard model while preserving the total Chern number and quantized Hall conductivity.
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Light-Induced Topological Phase Transitions and Anomalous Thermal Transport in d-Wave Altermagnets
Linearly polarized light breaks spin-sector symmetry in d-wave altermagnets, inducing transitions from quantum spin Hall to spin-polarized Chern insulator to trivial states, with all anomalous transport coefficients showing d-wave angular dependence and some becoming quantized.