Large deviation techniques applied to systems with long-range interactions

Julien Barré; Freddy Bouchet; Thierry Dauxois; Stefano Ruffo

doi:10.1007/s10955-005-3768-8

Large deviation techniques applied to systems with long-range interactions

Julien Barré
, Freddy Bouchet
, Thierry Dauxois
, Stefano Ruffo

Laboratoire de Physique
Los Alamos National Laboratory Theoretical Division
University of Florence

Résultats de recherche: Contribution à un journal › Article de révision › Revue par des pairs

Résumé

We discuss a method to solve models with long-range interactions in the microcanonical and canonical ensemble. The method closely follows the one introduced by R.S. Ellis, Physica D 133:106 (1999), which uses large deviation techniques. We show how it can be adapted to obtain the solution of a large class of simple models, which can show ensemble inequivalence. The model Hamiltonian can have both discrete (Ising, Potts) and continuous (HMF, Free Electron Laser) state variables. This latter extension gives access to the comparison with dynamics and to the study of non-equilibrium effects. We treat both infinite range and slowly decreasing interactions and, in particular, we present the solution of the α-Ising model in one-dimension with 0 < α < 1.

langue originale	Anglais
Pages (de - à)	677-713
Nombre de pages	37
journal	Journal of Statistical Physics
Volume	119
Numéro de publication	3-4
Les DOIs	https://doi.org/10.1007/s10955-005-3768-8
état	Publié - 1 janv. 2005
Modification externe	Oui

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10.1007/s10955-005-3768-8

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title = "Large deviation techniques applied to systems with long-range interactions",

abstract = "We discuss a method to solve models with long-range interactions in the microcanonical and canonical ensemble. The method closely follows the one introduced by R.S. Ellis, Physica D 133:106 (1999), which uses large deviation techniques. We show how it can be adapted to obtain the solution of a large class of simple models, which can show ensemble inequivalence. The model Hamiltonian can have both discrete (Ising, Potts) and continuous (HMF, Free Electron Laser) state variables. This latter extension gives access to the comparison with dynamics and to the study of non-equilibrium effects. We treat both infinite range and slowly decreasing interactions and, in particular, we present the solution of the α-Ising model in one-dimension with 0 < α < 1.",

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AU - Barré, Julien

AU - Bouchet, Freddy

AU - Dauxois, Thierry

AU - Ruffo, Stefano

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N2 - We discuss a method to solve models with long-range interactions in the microcanonical and canonical ensemble. The method closely follows the one introduced by R.S. Ellis, Physica D 133:106 (1999), which uses large deviation techniques. We show how it can be adapted to obtain the solution of a large class of simple models, which can show ensemble inequivalence. The model Hamiltonian can have both discrete (Ising, Potts) and continuous (HMF, Free Electron Laser) state variables. This latter extension gives access to the comparison with dynamics and to the study of non-equilibrium effects. We treat both infinite range and slowly decreasing interactions and, in particular, we present the solution of the α-Ising model in one-dimension with 0 < α < 1.

AB - We discuss a method to solve models with long-range interactions in the microcanonical and canonical ensemble. The method closely follows the one introduced by R.S. Ellis, Physica D 133:106 (1999), which uses large deviation techniques. We show how it can be adapted to obtain the solution of a large class of simple models, which can show ensemble inequivalence. The model Hamiltonian can have both discrete (Ising, Potts) and continuous (HMF, Free Electron Laser) state variables. This latter extension gives access to the comparison with dynamics and to the study of non-equilibrium effects. We treat both infinite range and slowly decreasing interactions and, in particular, we present the solution of the α-Ising model in one-dimension with 0 < α < 1.

KW - Large deviation

KW - Long-range interactions

KW - Mean-field limit

KW - Techniques

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DO - 10.1007/s10955-005-3768-8

M3 - Review article

AN - SCOPUS:21644487727

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VL - 119

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JO - Journal of Statistical Physics

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ER -

Large deviation techniques applied to systems with long-range interactions

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