93-313 Martinelli F.
On the Two Dimensional Dynamical Ising Model In the Phase Coexistence Region (164K, plain TeX) Nov 25, 93
Abstract , Paper (src), View paper (auto. generated ps), Index of related papers

Abstract. We consider a Glauber dynamics reversible with respect to the two dimensional Ising model in a finite square of side L, in the absence of an external field and at large inverse temperature $\beta$. We first consider the gap in the spectrum of the generator of the dynamics in two different cases: with plus and open boundary condition. We prove that, when the symmetry under global spin flip is broken by the boundary conditions, the gap is much larger than the case in which the symmetry is present. For this latter we compute exactly the asymptotics of $-{1\over \beta L}\log (\hbox{gap})$ as $L\to\infty$ and show that it coincides with the surface tension along one of the coordinat axes. As a consequence we are able to study quite precisely the large deviations in time of the magnetization and to obtain an upper bound on the spin-spin time correlation in the infinite volume plus phase. Our results establish a connection between the dynamical large deviations and those of the equilibrium Gibbs measure studied by Shlosman in the framework of the rigorous description of the Wulff shape for the Ising model. Finally we show that, in the case of open boundary conditions, it is possible to rescale the time with L in such a way that, as $L\to \infty$, the finite dimensional distributions of the time rescaled magnetization converge to those of a symmetric continuous time Markov chain on the two state space $\{-m^*(\beta ),m^*(\beta )\}$, $m^*(\beta )$ being the spontaneous magnetization. Our methods rely upon a novel combination of techniques for bounding from below the gap of symmetric Markov chains on complicate graphs, developed by Jerrum and Sinclair in their Markov chain approach to hard computational problems, and the idea of introducing "block Glauber dynamics" instead of the standard single site dynamics, in order to put in evidence more effectively the effect of the boundary conditions in the approach to equilibrium.

Files: 93-313.src( desc , 93-313.tex )