2007
DOI: 10.1140/epjst/e2007-00173-0
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Aspects of stochastic resonance in reaction–diffusion systems: The nonequilibrium-potential approach

Abstract: Abstract. We analyze several aspects of the phenomenon of stochastic resonance in reaction-diffusion systems, exploiting the nonequilibrium potential's framework. The generalization of this formalism (sketched in the appendix) to extended systems is first carried out in the context of a simplified scalar model, for which stationary patterns can be found analytically. We first show how system-size stochastic resonance arises naturally in this framework, and then how the phenomenon of array-enhanced stochastic r… Show more

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Cited by 33 publications
(29 citation statements)
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“…As shown in previous works [16], it also fulfils the Lyapunov condition (d/dt)F [f] ≤ 0 (note that this condition is only strictly valid in a weak noise limit). Exploiting the Hopf-Cole transformation, we now define a new field, h(x, t), that, as indicated before, corresponds to an interface height,…”
Section: Non-equilibrium Potential For the Kardar-parisi-zhang Equatisupporting
confidence: 69%
See 1 more Smart Citation
“…As shown in previous works [16], it also fulfils the Lyapunov condition (d/dt)F [f] ≤ 0 (note that this condition is only strictly valid in a weak noise limit). Exploiting the Hopf-Cole transformation, we now define a new field, h(x, t), that, as indicated before, corresponds to an interface height,…”
Section: Non-equilibrium Potential For the Kardar-parisi-zhang Equatisupporting
confidence: 69%
“…Examples of non-gradient dynamical systems for which the 'non-equilibrium potential' (NEP)-which plays an analogous role to the free energy in equilibrium systems [10]-is known can be found in Graham [11], Graham & Tél [12], Montagne et al [13] and Izús et al [14]. In a recent series of papers, we have reported on the obtaining of an NEP for scalar and non-scalar extended systems of the reaction-diffusion type-like activator-inhibitor systems and systems with local and non-local interactionsand exploited those results for the study of stochastic resonance in extended systems and other related phenomena [15][16][17].…”
Section: Introductionmentioning
confidence: 97%
“…On the physical side, our results can be interpreted within the theory of nonequilibrium potentials [24]. The evolution problems correspond to gradient flows pursuing the minimization of our "energy" functionals, that play the role of nonequilibrium potentials.…”
Section: Discussionmentioning
confidence: 87%
“…Here, we will restrict to the case J ei = 0 for simplicity (details of the calculation and more general situations will be considered elsewhere). Using standard procedures (see [3,5,6]) one arrives at…”
Section: Resultsmentioning
confidence: 99%