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"Stochastic resonance and synchronization in a multistable system"

Abstract:

For a class of multistable systems excited by a periodic signal and noise, the improvement of the output signal-to noise ratio (SNR) can be achieved by the apparently paradoxical means of increasing the input noise intensity. The effect is known as stochastic resonance (SR). In a mathematically rigorous sense, this notion is still poorly understood. A hypothesis accepted has been associated with the synchronization phenomenon. The system dynamics has been taken to be discrete: a particle exhibits instant random switching between the stable states, with some degree of coherence with the signal. However, following SR theory, the output spectrum is a sum of a flat wide-band spectrum of the Lorentzian type and a discrete spectrum with a peak at the signal frequency; no coherence between the switching rate and the signal frequency is implicit in this result. On the other hand, some experimental and simulation results exhibit synchronization for some input SNR.

We determine stochastic resonance and synchronization conditions in a bistable system subject to a weak periodic signal and noise. We demonstrate that these phenomena are not contradictory and can be interpreted as the limit cases of modulated hopping dynamics corresponding to the low and high input SNR, respectively. A boundary between the domains of stochastic resonance and synchronization is found as a function of the system and excitation parameters.