Stochastic resonance, reverse-resonance, and resonant activation induced by a multi-state noise

In this paper. we investigate the periodic response for a linear system driven by a multiplicative multi-state noise (which is composed of file multiplication of two dichotomous noises) to an input temporal oscillatory signal. and the escape of Browman particles over the fluctuating potential barrier for a system with a piece-wise linear potential and driven by an additive multi-state noise (which is also composed of the multiplication of two dichotomous noises). For the first system, we get the stochastic resonance phenomenon for the amplitude of the periodic response vs. the two dichotomous noise strengths, and the phenomenon of reverse-resonance for the amplitude of the periodic response vs k. which represents the asymmetry degree of the dichotomous noises For the second system, we obtain the resonant activation phenomenon, for which the mean first passage time of the Browman particles over the fluctuating potential barrier Shows a minimum as the function of file transition rates of the multi-slate noise (C) 2009 Published by Elsevier B.V.