Add to ORKGInternational audienceThe Boltzmann-Enskog equation for a hard sphere gas is known to have so called microscopic solutions, i.e., solutions of the form of time-evolving empirical measures of a finite number of hard spheres. However, the precise mathematical meaning of these solutions should be discussed, since the formal substitution of empirical measures into the equation is not well-defined. Here we give a rigorous mathematical meaning to the microscopic solutions to the Boltzmann-Enskog equation by means of a suitable series representation
The exact solution of the Boltzmann equation, obtained recently for Maxwell molecules, holds for var...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...
The Boltzmann equation describes the time evolution of a dilute gas, and is the best known transport...
Some implications of a modified form of the non-linear Enskog equation for a hard sphere fluid are i...
Arguments are presented for a modified form of the nonlinear Enskog equation, which describes the ti...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
We study properties of the consistent Boltzmann algorithm for dense gases, using its limiting kineti...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
Expressions are studied for the rate of change of momentum distribution that result from using a rec...
Expressions are studied for the rate of change of momentum distribution that result from using a rec...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...
The exact solution of the Boltzmann equation, obtained recently for Maxwell molecules, holds for var...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...
The Boltzmann equation describes the time evolution of a dilute gas, and is the best known transport...
Some implications of a modified form of the non-linear Enskog equation for a hard sphere fluid are i...
Arguments are presented for a modified form of the nonlinear Enskog equation, which describes the ti...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
We study properties of the consistent Boltzmann algorithm for dense gases, using its limiting kineti...
It is shown that the kinetic equation proposed by Enskog for a dense hard sphere gas can be solved n...
Expressions are studied for the rate of change of momentum distribution that result from using a rec...
Expressions are studied for the rate of change of momentum distribution that result from using a rec...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...
The exact solution of the Boltzmann equation, obtained recently for Maxwell molecules, holds for var...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...
International audienceThis paper aims at developing a new connection between the Boltzmann equation ...