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Article Dans Une Revue Journal of Statistical Mechanics: Theory and Experiment Année : 2014

Crossover properties of a one-dimensional reaction-diffusion process with a transport current

Résumé

1D non-equilibrium models of particles subjected to a coagulation-diffusion process are important in understanding non-equilibrium dynamics, and fluctuation-dissipation relations. We consider in this paper transport properties in finite and semi-infinite one-dimensional chains. A set of particles freely hop between nearest-neighbor sites, with the additional condition that, when two particles meet, they merge instantaneously into one particle. A localized source of particle-current is imposed at the origin as well as a non-symmetric hopping rate between the left and right directions (particle drift). This model was previously studied with exact results for the particle density by Hinrichsen et al [1] in the long-time limit. We are interested here in the crossover process between a scaling regime and long-time behavior, starting with a chain filled with particles. As in the previous reference [1], we employ the empty-interval-particle method, where the probability of finding an empty interval between two given sites is considered. However a different method is developed here to treat the boundary conditions by imposing the continuity and differentiability of the interval probability, which allows for a closed and unique solution, especially for any given initial particle configuration. In the finite size case, we find a crossover between the scaling regime and two different exponential decays for the particle density as a function of the input current. Precise asymptotic expressions for the particle density and coagulation rate are given.

Dates et versions

hal-01275580 , version 1 (17-02-2016)

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Jean-Yves Fortin. Crossover properties of a one-dimensional reaction-diffusion process with a transport current. Journal of Statistical Mechanics: Theory and Experiment, 2014, ⟨10.1088/1742-5468/2014/09/P09033⟩. ⟨hal-01275580⟩
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