Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2006-12-25
Physics
Condensed Matter
Statistical Mechanics
12 pages, 8 figures, REVTeX4
Scientific paper
We study the barrier crossing of a particle driven by white symmetric Levy noise of index $\alpha$ and intensity $DD for three different generic types of potentials: (a) a bistable potential; (b) a metastable potential; and (c) a truncated harmonic potential. For the low noise intensity regime we recover the previously proposed algebraic dependence on $D$ of the characteristic escape time, $T_{\mathrm{esc}}\simeq C(\alpha)/D^{\mu(\alpha)}$, where $C(\alpha)$ is a coefficient. It is shown that the exponent $\mu(\alpha)$ remains approximately constant, $\mu\approx 1$ for $0<\alpha<2$; at $\alpha=2$ the power-law form of $T_{\mathrm{esc}}$ changes into the known exponential dependence on 1/D; it exhibits a divergence-like behavior as $\alpha$ approaches 2. In this regime we observe a monotonous increase of the escape time $T_{\mathrm{esc}}$ with increasing $\alpha$ (keeping the noise intensity $D$ constant). The probability density of the escape time decays exponentially. In addition, for low noise intensities the escape times correspond to barrier crossing by multiple Levy steps. For high noise intensities, the escape time curves collapse for all values of $\alpha$. At intermediate noise intensities, the escape time exhibits non-monotonic dependence on the index $\alpha$, while still retaining the exponential form of the escape time density.
Chechkin Aleksei V.
Klafter Joseph
Metzler Ralf
Sliusarenko Oleksii Yu.
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