Nonlinear thermal and thermoelectric responses are shown to encode quantum geometry and satisfy relations parallel to the Wiedemann-Franz and Mott laws in systems with broken symmetries.
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Nonlinearity tames the skin effect in nonreciprocal active systems to enable stable unidirectional solitonic pulse propagation, shown analytically and in an electrical metamaterial experiment.
Spin-phonon coupling in Kitaev systems produces Fano lineshapes in Raman spectra whose temperature evolution and magnetic-field dependence encode the presence of Majorana fermions and Z2 gauge fluxes.
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Nonlinear thermal and thermoelectric transport from quantum geometry
Nonlinear thermal and thermoelectric responses are shown to encode quantum geometry and satisfy relations parallel to the Wiedemann-Franz and Mott laws in systems with broken symmetries.
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Harnessing Nonlinearity to Tame Wave Dynamics in Nonreciprocal Active Systems
Nonlinearity tames the skin effect in nonreciprocal active systems to enable stable unidirectional solitonic pulse propagation, shown analytically and in an electrical metamaterial experiment.
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Footprints of the Kitaev spin liquid in the Fano lineshapes of the Raman active optical phonons
Spin-phonon coupling in Kitaev systems produces Fano lineshapes in Raman spectra whose temperature evolution and magnetic-field dependence encode the presence of Majorana fermions and Z2 gauge fluxes.
- Coexistence of topological Anderson insulator and multifractal critical phase in a non-Hermitian quasicrystal