HYDRODYNAMIC LIMITS OF A VLASOV-FOKKER-PLANCK EQUATION FOR GRANULAR MEDIA

Dario Benedetto; Emanuele Caglioti; Francois Golse; Mario Pulvirenti

doi:10.4310/CMS.2004.v2.n1.a7

HYDRODYNAMIC LIMITS OF A VLASOV-FOKKER-PLANCK EQUATION FOR GRANULAR MEDIA

Dario Benedetto
, Emanuele Caglioti
, Francois Golse
, Mario Pulvirenti

University of Rome
Institut Universitaire de France

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

Résumé

This paper, which is a sequel to Benedetto-Caglioti-Golse-Pulvirenti [Comput. Math. Appl. 38 (1999), 121-131], considers as a starting point a mean-field equation for the dynamics of a gas of particles interacting via dissipative binary collisions. More precisely, we are concerned with the case where these particles are immersed in a thermal bath modeled by a linear Fokker-Planck operator. Two different scalings are considered for the resulting equation. One concerns the case of a thermal bath at finite temperature and leads formally to a nonlinear diffusion equation. The other concerns the case of a thermal bath at infinite temperature and leads formally to an isentropic Navier-Stokes system. Both formal limits rest on the mathematical properties of the linearized mean-field operator which are established rigorously, and on a Hilbert or Chapman-Enskog expansion.

langue originale	Anglais
Pages (de - à)	121-136
Nombre de pages	16
journal	Communications in Mathematical Sciences
Volume	2
Numéro de publication	1
Les DOIs	https://doi.org/10.4310/CMS.2004.v2.n1.a7
état	Publié - 1 janv. 2004
Modification externe	Oui

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title = "HYDRODYNAMIC LIMITS OF A VLASOV-FOKKER-PLANCK EQUATION FOR GRANULAR MEDIA",

abstract = "This paper, which is a sequel to Benedetto-Caglioti-Golse-Pulvirenti [Comput. Math. Appl. 38 (1999), 121-131], considers as a starting point a mean-field equation for the dynamics of a gas of particles interacting via dissipative binary collisions. More precisely, we are concerned with the case where these particles are immersed in a thermal bath modeled by a linear Fokker-Planck operator. Two different scalings are considered for the resulting equation. One concerns the case of a thermal bath at finite temperature and leads formally to a nonlinear diffusion equation. The other concerns the case of a thermal bath at infinite temperature and leads formally to an isentropic Navier-Stokes system. Both formal limits rest on the mathematical properties of the linearized mean-field operator which are established rigorously, and on a Hilbert or Chapman-Enskog expansion.",

keywords = "Chapman-enskog expansion, Hilbert expansion, Hydrodynamic limits, Ranular media, Vlasov-fokker-planck equation",

author = "Dario Benedetto and Emanuele Caglioti and Francois Golse and Mario Pulvirenti",

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AU - Pulvirenti, Mario

PY - 2004/1/1

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N2 - This paper, which is a sequel to Benedetto-Caglioti-Golse-Pulvirenti [Comput. Math. Appl. 38 (1999), 121-131], considers as a starting point a mean-field equation for the dynamics of a gas of particles interacting via dissipative binary collisions. More precisely, we are concerned with the case where these particles are immersed in a thermal bath modeled by a linear Fokker-Planck operator. Two different scalings are considered for the resulting equation. One concerns the case of a thermal bath at finite temperature and leads formally to a nonlinear diffusion equation. The other concerns the case of a thermal bath at infinite temperature and leads formally to an isentropic Navier-Stokes system. Both formal limits rest on the mathematical properties of the linearized mean-field operator which are established rigorously, and on a Hilbert or Chapman-Enskog expansion.

AB - This paper, which is a sequel to Benedetto-Caglioti-Golse-Pulvirenti [Comput. Math. Appl. 38 (1999), 121-131], considers as a starting point a mean-field equation for the dynamics of a gas of particles interacting via dissipative binary collisions. More precisely, we are concerned with the case where these particles are immersed in a thermal bath modeled by a linear Fokker-Planck operator. Two different scalings are considered for the resulting equation. One concerns the case of a thermal bath at finite temperature and leads formally to a nonlinear diffusion equation. The other concerns the case of a thermal bath at infinite temperature and leads formally to an isentropic Navier-Stokes system. Both formal limits rest on the mathematical properties of the linearized mean-field operator which are established rigorously, and on a Hilbert or Chapman-Enskog expansion.

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HYDRODYNAMIC LIMITS OF A VLASOV-FOKKER-PLANCK EQUATION FOR GRANULAR MEDIA

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