2013
DOI: 10.1140/epjb/e2013-40417-4
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Bosonic transport through a chain of quantum dots

Abstract: The particle transport through a chain of quantum dots coupled to two bosonic reservoirs is studied. For the case of reservoirs of non-interacting bosonic particles, we derive an exact set of stochastic differential equations, whose memory kernels and driving noise are characterised entirely by the properties of the reservoirs. Going to the Markovian limit an analytically solvable case is presented. The effect of interparticle interactions on the transient behaviour of the system, when both reservoirs are inst… Show more

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Cited by 47 publications
(42 citation statements)
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References 50 publications
(58 reference statements)
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“…This means that for large voltages the transport of the particles through the lattice is blocked. The same qualitative behavior was observed in [38] by approximating the interaction contribution to the selfenergy by the tabpole diagram, in the non-equilibrium Green's function framework. The blockade is a consequence of the interactions: as we saw in Fig.…”
Section: Non-equilibrium Neutral Particle Transportsupporting
confidence: 71%
See 1 more Smart Citation
“…This means that for large voltages the transport of the particles through the lattice is blocked. The same qualitative behavior was observed in [38] by approximating the interaction contribution to the selfenergy by the tabpole diagram, in the non-equilibrium Green's function framework. The blockade is a consequence of the interactions: as we saw in Fig.…”
Section: Non-equilibrium Neutral Particle Transportsupporting
confidence: 71%
“…As in refs. [38,39] we are interested explicitly in the transport of neutral atoms, not in heat conductance across the sample as studied, e.g. in refs.…”
Section: Non-equilibrium Neutral Particle Transportmentioning
confidence: 99%
“…An alternative approach would be then to fully include the leads into the treatment and use a diagrammatic expansion of the Green functions computed for the full lead-system-lead system, such as done for bosons in steady state in Refs. [42,43]. Needless to say, such an approach as just mentioned is very hard for many-body quantum systems whose main central part, without the leads, is itself non-integrable, such as our many-body Bose-Hubbard model for more than two wells [44,45].…”
Section: Discussionmentioning
confidence: 99%
“…Both findings together verify the predicted dependence: τ −1 eff ∝ J 2 =Γ dec . Conclusions.-The observation of NDC in the transport of ultracold quantum gases bears great potential for future implementations of interaction controlled atomic circuits [14,15,[36][37][38][39]. It can also serve as an alternative mechanism for the observation of bistability and related nonequilibrium phenomena.…”
Section: Prl 115 050601 (2015) P H Y S I C a L R E V I E W L E T T Ementioning
confidence: 99%