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Numerical experiments on noisy chains: From collective transitions to nucleation-diffusion

M. Castro, G. Lythe

We consider chains of particles with nearest-neighbor coupling, independently subjected to noise, all initially in the same well of a symmetric double-well potential. If there are sufficiently few particles, transitions from one well to another are “collective”; i.e., all particles remain close together as they make the passage from one well to the other. In longer chains, only a fraction of the particles make an initial transition, creating a nucleated region that may grow or collapse by diffusion of its boundaries. Numerical experiments are used to explore the change of the scaling of the passage time as a function of the length of the chain, which distinguishes the two regimes. A suitable relationship between the noise amplitude, coupling, and number of particles in the chain yields convergence to the continuum $\\phi^4$ or Allen–Cahn stochastic partial differential equations in one space dimension. We estimate the characteristic width of newly nucleated regions and construct a numerical effective potential describing the dynamics in the nucleation-diffusion regime.

Keywords: Stochastics, nucleation, passage time

SIAM Journal on Applied Dynamical Systems. Volumen: 7 Número: 1 Páginas: 207-219

Índice de impacto JCR y cuartil WoS: 1.211 (2008); 1.956 - Q1 (2019)

Referencia DOI: DOI icon 10.1137/070695514    

Publicado en papel: Enero 2008.

M. Castro, G. Lythe. Numerical experiments on noisy chains: From collective transitions to nucleation-diffusion. SIAM Journal on Applied Dynamical Systems. vol. 7, no. 1, pp. 207-219, Enero 2008.

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