A MODEL FOR SLOWING PARTICLES IN RANDOM MEDIA

François Golse; Valeria Ricci; Ana Jacinta Soares

doi:10.3934/dcds.2025012

A MODEL FOR SLOWING PARTICLES IN RANDOM MEDIA

François Golse
, Valeria Ricci
, Ana Jacinta Soares

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

Abstract

We present a simple model in dimension d ≥ 2 for slowing particles in random media, where point particles move in straight lines among and inside spherical identical obstacles with Poisson distributed centres. When crossing an obstacle, a particle is slowed down according to the law V̇ = − κ/ϵ S(|V |)V , where V is the velocity of the point particle, κ is a positive constant, ϵ is the radius of the obstacle and S(|V |) is a given slowing profile. With this choice, the slowing rate in the obstacles is such that the variation of speed at each crossing is of order 1. We study the asymptotic limit of the particle system when ϵ vanishes and the mean free path of the point particles stays finite. We prove the convergence of the point particles density measure to the solution of a kinetic-like equation with a collision term which includes a contribution proportional to a δ function in v = 0; this contribution guarantees the conservation of mass for the limit equation.

Original language	English
Pages (from-to)	3084-3106
Number of pages	23
Journal	Discrete and Continuous Dynamical Systems
Volume	45
Issue number	9
DOIs	https://doi.org/10.3934/dcds.2025012
Publication status	Published - 1 Sept 2025

Keywords

Particle systems
kinetic limit
point measure component
random media
slowing particles

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10.3934/dcds.2025012

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title = "A MODEL FOR SLOWING PARTICLES IN RANDOM MEDIA",

abstract = "We present a simple model in dimension d ≥ 2 for slowing particles in random media, where point particles move in straight lines among and inside spherical identical obstacles with Poisson distributed centres. When crossing an obstacle, a particle is slowed down according to the law {\.V} = − κ/ϵ S(|V |)V , where V is the velocity of the point particle, κ is a positive constant, ϵ is the radius of the obstacle and S(|V |) is a given slowing profile. With this choice, the slowing rate in the obstacles is such that the variation of speed at each crossing is of order 1. We study the asymptotic limit of the particle system when ϵ vanishes and the mean free path of the point particles stays finite. We prove the convergence of the point particles density measure to the solution of a kinetic-like equation with a collision term which includes a contribution proportional to a δ function in v = 0; this contribution guarantees the conservation of mass for the limit equation.",

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author = "Fran{\c c}ois Golse and Valeria Ricci and Soares, \{Ana Jacinta\}",

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T1 - A MODEL FOR SLOWING PARTICLES IN RANDOM MEDIA

AU - Golse, François

AU - Ricci, Valeria

AU - Soares, Ana Jacinta

PY - 2025/9/1

Y1 - 2025/9/1

N2 - We present a simple model in dimension d ≥ 2 for slowing particles in random media, where point particles move in straight lines among and inside spherical identical obstacles with Poisson distributed centres. When crossing an obstacle, a particle is slowed down according to the law V̇ = − κ/ϵ S(|V |)V , where V is the velocity of the point particle, κ is a positive constant, ϵ is the radius of the obstacle and S(|V |) is a given slowing profile. With this choice, the slowing rate in the obstacles is such that the variation of speed at each crossing is of order 1. We study the asymptotic limit of the particle system when ϵ vanishes and the mean free path of the point particles stays finite. We prove the convergence of the point particles density measure to the solution of a kinetic-like equation with a collision term which includes a contribution proportional to a δ function in v = 0; this contribution guarantees the conservation of mass for the limit equation.

AB - We present a simple model in dimension d ≥ 2 for slowing particles in random media, where point particles move in straight lines among and inside spherical identical obstacles with Poisson distributed centres. When crossing an obstacle, a particle is slowed down according to the law V̇ = − κ/ϵ S(|V |)V , where V is the velocity of the point particle, κ is a positive constant, ϵ is the radius of the obstacle and S(|V |) is a given slowing profile. With this choice, the slowing rate in the obstacles is such that the variation of speed at each crossing is of order 1. We study the asymptotic limit of the particle system when ϵ vanishes and the mean free path of the point particles stays finite. We prove the convergence of the point particles density measure to the solution of a kinetic-like equation with a collision term which includes a contribution proportional to a δ function in v = 0; this contribution guarantees the conservation of mass for the limit equation.

KW - Particle systems

KW - kinetic limit

KW - point measure component

KW - random media

KW - slowing particles

UR - https://www.scopus.com/pages/publications/105002042587

U2 - 10.3934/dcds.2025012

DO - 10.3934/dcds.2025012

M3 - Article

AN - SCOPUS:105002042587

SN - 1078-0947

VL - 45

SP - 3084

EP - 3106

JO - Discrete and Continuous Dynamical Systems

JF - Discrete and Continuous Dynamical Systems

IS - 9

ER -

A MODEL FOR SLOWING PARTICLES IN RANDOM MEDIA

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