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arxiv: 0801.3975 · v1 · submitted 2008-01-25 · ❄️ cond-mat.stat-mech · math.PR

First-exit-time probability density tails for a local height of a non-equilibrium Gaussian interface

classification ❄️ cond-mat.stat-mech math.PR
keywords alphadensityprobabilityenergygaussianinterfacemomentssize
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We study the long-time behavior of the probability density Q_t of the first exit time from a bounded interval [-L,L] for a stochastic non-Markovian process h(t) describing fluctuations at a given point of a two-dimensional, infinite in both directions Gaussian interface. We show that Q_t decays when t \to \infty as a power-law $^{-1 - \alpha}, where \alpha is non-universal and proportional to the ratio of the thermal energy and the elastic energy of a fluctuation of size L. The fact that \alpha appears to be dependent on L, which is rather unusual, implies that the number of existing moments of Q_t depends on the size of the window [-L,L]. A moment of an arbitrary order n, as a function of L, exists for sufficiently small L, diverges when L approaches a certain threshold value L_n, and does not exist for L > L_n. For L > L_1, the probability density Q_t is normalizable but does not have moments.

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