Large deviations of the empirical currents for a boundary-driven reaction diffusion model

Thierry Bodineau; Maxime Lagouge

doi:10.1214/11-AAP826

Large deviations of the empirical currents for a boundary-driven reaction diffusion model

Thierry Bodineau
, Maxime Lagouge

École Polytechnique

Laboratoire de Probabilités et Modèles Aléatoires

Research output: Contribution to journal › Article › peer-review

Abstract

We derive a large deviation principle for the empirical currents of lattice gas dynamics which combine a fast stirring mechanism (Symmetric Simple Exclusion Process) and creation/annihilation mechanisms (Glauber dynamics). Previous results on the density large deviations can be recovered from this general large deviation principle. The contribution of external driving forces due to reservoirs at the boundary of the system is also taken into account.

Original language	English
Pages (from-to)	2282-2319
Number of pages	38
Journal	Annals of Applied Probability
Volume	22
Issue number	6
DOIs	https://doi.org/10.1214/11-AAP826
Publication status	Published - 1 Dec 2012

Keywords

Interacting particle systems
Large deviations

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10.1214/11-AAP826

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abstract = "We derive a large deviation principle for the empirical currents of lattice gas dynamics which combine a fast stirring mechanism (Symmetric Simple Exclusion Process) and creation/annihilation mechanisms (Glauber dynamics). Previous results on the density large deviations can be recovered from this general large deviation principle. The contribution of external driving forces due to reservoirs at the boundary of the system is also taken into account.",

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AU - Bodineau, Thierry

AU - Lagouge, Maxime

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N2 - We derive a large deviation principle for the empirical currents of lattice gas dynamics which combine a fast stirring mechanism (Symmetric Simple Exclusion Process) and creation/annihilation mechanisms (Glauber dynamics). Previous results on the density large deviations can be recovered from this general large deviation principle. The contribution of external driving forces due to reservoirs at the boundary of the system is also taken into account.

AB - We derive a large deviation principle for the empirical currents of lattice gas dynamics which combine a fast stirring mechanism (Symmetric Simple Exclusion Process) and creation/annihilation mechanisms (Glauber dynamics). Previous results on the density large deviations can be recovered from this general large deviation principle. The contribution of external driving forces due to reservoirs at the boundary of the system is also taken into account.

KW - Interacting particle systems

KW - Large deviations

U2 - 10.1214/11-AAP826

DO - 10.1214/11-AAP826

M3 - Article

AN - SCOPUS:84879657396

SN - 1050-5164

VL - 22

SP - 2282

EP - 2319

JO - Annals of Applied Probability

JF - Annals of Applied Probability

IS - 6

ER -

Large deviations of the empirical currents for a boundary-driven reaction diffusion model

Abstract

Keywords

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