Light fields can induce controllable time-dependent temperatures in electrodes to generate and detect charge-neutral heat pulses in mesoscopic conductors.
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Periodic driving of the generalized Aubry-André model produces controllable delocalized-localized and multifractal-localized Floquet mobility edges with corresponding superdiffusive to subdiffusive transport.
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Generation of heat pulses in mesoscopic conductors using light fields
Light fields can induce controllable time-dependent temperatures in electrodes to generate and detect charge-neutral heat pulses in mesoscopic conductors.
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Floquet mobility edges and transport in a periodically driven generalized Aubry-Andr\'e model
Periodic driving of the generalized Aubry-André model produces controllable delocalized-localized and multifractal-localized Floquet mobility edges with corresponding superdiffusive to subdiffusive transport.