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Bosonic and fermionic transport phenomena of ultra-cold atoms in 1D optical lattices

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arxiv 1110.1646 v4 pith:PKW5G2LJ submitted 2011-10-07 cond-mat.quant-gas cond-mat.mes-hallquant-ph

Bosonic and fermionic transport phenomena of ultra-cold atoms in 1D optical lattices

classification cond-mat.quant-gas cond-mat.mes-hallquant-ph
keywords transportcurrentbosonicdifferentdynamicsfermionsfinitehalf
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Using the micro-canonical picture of transport -- a framework ideally suited to describe the dynamics of closed quantum systems such as ultra-cold atom experiments -- we show that the exact dynamics of non-interacting fermions and bosons exhibit very different transport properties when the system is set out of equilibrium by removing the particles from half of the lattice. We find that fermions rapidly develop a finite quasi steady-state current reminiscent of electronic transport in nanoscale systems. This result is robust -- it occurs with or without a harmonic confining potential and at zero or finite temperature. The zero-temperature bosonic current instead exhibits strong oscillatory behavior that decays into a steady-state of zero current only in the thermodynamic limit. These differences appear most strikingly in the different particle number fluctuations on half of the lattice as a consequence of the spin statistics. These predictions can be readily verified experimentally.

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