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Unidirectional hopping transport of interacting particles on a finite chain

Particle transport through an open, discrete 1-D channel against a mechanical or chemical bias is analyzed within a master equation approach. The channel, externally driven by time dependent site energies, allows multiple occupation due to the coupling to reservoirs. Performance criteria and optimization of active transport in a two-site channel are discussed as a function of reservoir chemical potentials, the load potential, interparticle interaction strength, driving mode and driving period. Our results, derived from exact rate equations, are used in addition to test a previously developed time-dependent density functional theory, suggesting a wider applicability of that method in investigations of many particle systems far from equilibrium.

preprint2010arXivOpen access
Mario EinaxGemma SolomonWolfgang DieterichAbraham Nitzan
cond-mat.stat-mech
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Open access4 authors1 topic
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Mario EinaxGemma SolomonWolfgang DieterichAbraham Nitzan

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