Repeated quantum interactions Quantum Langevin equation and the low density limit

Details Repeated quantum interactions Quantum Langevin equation and the low density limit Repeated quantum interactions Quantum Langevin equation and the low density limit

2008-03-20

arxiv.org/abs/0803.3059v2

Mathematics

Probability

18 pages

Scientific paper

We consider a repeated quantum interaction model describing a small system $\Hh_S$ in interaction with each one of the identical copies of the chain $\bigotimes_{\N^*}\C^{n+1}$, modeling a heat bath, one after another during the same short time intervals $[0,h]$. We suppose that the repeated quantum interaction Hamiltonian is split in two parts: a free part and an interaction part with time scale of order $h$. After giving the GNS representation, we establish the relation between the time scale $h$ and the classical low density limit. We introduce a chemical potential $\mu$ related to the time $h$ as follows: $h^2=e^{\beta\mu}$. We further prove that the solution of the associated discrete evolution equation converges strongly, when $h$ tends to 0, to the unitary solution of a quantum Langevin equation directed by Poisson processes.

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