Nonequilibrium quantum transport coefficients and transient dynamics of full counting statistics in the strong-coupling and non-Markovian regimes

Nonequilibrium transport properties of quantum systems have recently become experimentally accessible in a number of platforms in so-called full-counting experiments that measure transient and steady-state nonequilibrium transport dynamics. We show that the effect of the measurement back-action can...

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Veröffentlicht in:	Physical review. B 2016-12, Vol.94 (21), Article 214308
Hauptverfasser:	Cerrillo, Javier, Buser, Maximilian, Brandes, Tobias
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Sprache:	eng
Schlagworte:	Coupling Equations of motion Markov processes Quantum transport Resistance Steady state Transport properties Variation
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container_title	Physical review. B
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creator	Cerrillo, Javier Buser, Maximilian Brandes, Tobias
description	Nonequilibrium transport properties of quantum systems have recently become experimentally accessible in a number of platforms in so-called full-counting experiments that measure transient and steady-state nonequilibrium transport dynamics. We show that the effect of the measurement back-action can be exploited to establish general relationships between transport coefficients in the transient regime which take the form of fluctuation-dissipation theorems in the steady state. This result becomes most conspicuous in the transient dynamics of open quantum systems under strong-coupling to non-Markovian environments in nonequilibrium settings. In order to explore this regime, a new simulation method based in a hierarchy of equations of motion has been developed. We instantiate our proposal with the study of energetic conductance between two baths connected via a few level system.
doi_str_mv	10.1103/PhysRevB.94.214308
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subjects	Coupling Equations of motion Markov processes Quantum transport Resistance Steady state Transport properties Variation
title	Nonequilibrium quantum transport coefficients and transient dynamics of full counting statistics in the strong-coupling and non-Markovian regimes
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