Non-equilibrium escape problems under bivariate alpha;-stable noises. Dybiec, B., Szczepaniec, K., Kac, M., & Sokolov, I. Acta Physica Polonica B, 2016. doi abstract bibtex Stochastic resonance is a prominent effect consisting in enhancement of a response of a physical system to deterministic driving in the presence of noise. It demonstrates a constructive role the noise may play in increasing the sensitivity of the system to weak signals, and emerges in different theoretical models and experimental situations. We consider this effect in a periodically modulated two-dimensional double-well potential under the influence of an isotropic alpha;-stable noise, and discuss the performance of various measures used to describe the stochastic resonance in other setups.
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title = {Non-equilibrium escape problems under bivariate alpha;-stable noises},
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year = {2016},
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abstract = {Stochastic resonance is a prominent effect consisting in enhancement of a response of a physical system to deterministic driving in the presence of noise. It demonstrates a constructive role the noise may play in increasing the sensitivity of the system to weak signals, and emerges in different theoretical models and experimental situations. We consider this effect in a periodically modulated two-dimensional double-well potential under the influence of an isotropic alpha;-stable noise, and discuss the performance of various measures used to describe the stochastic resonance in other setups.},
bibtype = {article},
author = {Dybiec, B. and Szczepaniec, K. and Kac, M. and Sokolov, I.M.},
doi = {10.5506/APhysPolB.47.1327},
journal = {Acta Physica Polonica B},
number = {5}
}
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