Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2006-02-09
Physics
Condensed Matter
Statistical Mechanics
26 LaTex pages, 4 eps figures
Scientific paper
The period-average rate in the low frequency limit for thermally activated escape with periodic driving is derived in a closed analytical form. We define the low frequency limit as the one where there is no essential dependence on frequency so that the formal limit $\Omega \to 0$ in the appropriate equations can be taken. We develop a perturbation theory of the action in the modulation amplitude and obtain a cumbersom but closed and tractable formula for arbitrary values of the modulation ampitude to noise intensity ratio $A/D$ except a narrow region near the bifurcation point and a simple analytical formula for the limiting case of moderately strong modulation. The present theory yields analytical description for the retardation of the exponential growth of the escape rate enhancement (i.e., transition from a log-linear regime to more moderate growth and even reverse behavior). The theory is developed for an arbitrary potential with an activation barrier but is exemplified by the cases of cubic (metastable) and quartic (bistable) potentials.
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