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Spatiotemporal sine-Wiener Bounded Noise and its effect on Ginzburg-Landau model

In this work, we introduce a kind of spatiotemporal bounded noise derived by the sine-Wiener noise and by the spatially colored unbounded noise introduced by García-Ojalvo, Sancho and Ramírez-Piscina (GSR noise). We characterize the behavior of the distribution of this novel noise by showing its dependence on both the temporal and the spatial autocorrelation strengths. In particular, we show that the distribution experiences a stochastic transition from bimodality to trimodality. Then, we employ the noise here defined to study phase transitions on Ginzburg-Landau model. Various phenomena are evidenced by means of numerical simulations, among which re-entrant transitions, as well as differences in the response of the system to GSR noise additive perturbations. Finally, we compare the statistical behaviors induced by the sine-Wiener noise with those caused by 'equivalent' GSR noises.

preprint2012arXivOpen access
Sebastiano de FranciscisAlberto d'Onofrio
cond-mat.stat-mechmath-phmath.MP
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Sebastiano de FranciscisAlberto d'Onofrio

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