 0245 Pietro Caputo, Fabio Martinelli
 Relaxation time of
anisotropic simple exclusion processes and quantum Heisenberg models
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Feb 4, 02

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Abstract. Motivated by an exact mapping between anisotropic half integer spin
quantum Heisenberg models and asymmetric diffusions on the lattice, we
consider an anisotropic simple exclusion process with $N$ particles in a
rectangle of $\bbZ^2$. Every particle at row $h$ tries to jump to an
arbitrary empty site at row $h\pm 1$ with rate $q^{\pm 1}$, where $q\in
(0,1)$ is a measure of the drift driving the particles towards the
bottom of the rectangle. We prove that the spectral gap
of the generator is uniformly positive in $N$ and in the size of the
rectangle. The proof is inspired by a recent interesting technique
envisaged by E. Carlen, M.C. Carvalho and M. Loss to analyze the Kac
model for the non linear Boltzmann equation. We then apply the result
to prove precise upper and lower bounds on the energy gap for the
spinS, ${\rm S}\in \ov2\bbN$, XXZ chain and for the 111 interface
of the spinS XXZ Heisenberg model, thus generalizing previous
results valid only for spin $\ov2$.
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0245.src(
0245.keywords ,
spinS.tex )