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Paper detail

Non-interacting many-particle quantum transport between finite reservoirs

We present a formalism to study many-particle quantum transport across a lattice locally connected to two finite, non-stationary (bosonic or fermionic) reservoirs, both of which are in a thermal state. We show that, for conserved total particle number, a system of nonlinear quantum-classical master equations describes the concurrent many-particle time evolution on the lattice and in the reservoirs. The finiteness of the reservoirs makes a macroscopic current emerge, which decreases exponentially in time, and asymptotically drives the many-particle configuration into an equilibrium state where the particle flow ceases. We analytically derive the time scale of this equilibration process, and, furthermore, investigate the imprint of many-particle interferences on the transport process.

preprint2020arXivOpen access
Giulio AmatoHeinz-Peter BreuerSandro WimbergerAlberto RodríguezAndreas Buchleitner
cond-mat.stat-mechquant-ph
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Giulio AmatoHeinz-Peter BreuerSandro WimbergerAlberto RodríguezAndreas Buchleitner

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