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arxiv 2110.07757 v2 pith:5VXR6WEM submitted 2021-10-14 cond-mat.mes-hall quant-ph

Universal nonadiabatic energy pumping in a quasiperiodically driven extended system

classification cond-mat.mes-hall quant-ph
keywords dimensionalsystembehaviorsdimensionsdrivenenergyfoundfrequencies
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The paradigm of Floquet engineering of topological states of matter can be generalized into the time-quasiperiodic scenario, where a lower dimensional time-dependent system maps into a higher dimensional one by combining the physical dimensions with additional synthetic dimensions generated by multiple incommensurate driving frequencies. Different than most previous works in which gapped topological phases were considered, we propose an experimentally realizable, one dimensional chain driven by two frequencies, which maps into a gapless Weyl semimetal in synthetic dimension. Based on analytical reasoning and numerical simulations, we found the nonadiabatic quantum dynamics of this system exhibit energy pumping behaviors characterized by universal functions. We also numerically found such behaviors are robust against a considerable amount of spatial disorder.

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