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VOLUME 58 | ISSUE 2 | PAGE 150
High frequency stochastic resonance in periodically driven systems
High frequency stochastic resonance (SR.) phenomena, associated with fluctuational transitions between coexisting periodic attractors, have been investigated experimentally in an electronic model of a single-well Duffing oscillator which is bistable in a nearly resonant field of frequency (aF. It is shown that, with increasing noise intensity, the signal-to-noise ratio (SNR) for a signal due to a weak trial force of frequency fl~wF at first decreases, then increases, and finally decreases again at higher noise intensities: The behavior is similar to that observed previously for conventional (low-frequency) SR in systems with static bistable potentials. The stochastic enhancement of the SNR of an additional signal at the mirror-reflected frequency |Ω — Ρ\ has also been observed, in accordance with theoretical predictions. Relationships with phenomena in nonlinear optics are discussed.

Permission given by American Institute of Physics is appreciated.