Add to ORKGIn this paper we develop high order asymptotic preserving methods for the spatially inhomogeneous quantum Boltzmann equation. We follow the work in Li and Pareschi (J Comput Phys 259:402–420, 2014) where asymptotic preserving exponential Runge–Kutta methods for the classical inhomogeneous Boltzmann equation were constructed. A major difficulty here is related to the non Gaussian steady states characterizing the quantum kinetic behavior. We show that the proposed schemes achieve high-order accuracy uniformly in time for all Planck constants ranging from classical regime to quantum regime, and all Knudsen number ranging from kinetic regime to fluid regime. Computational results are presented for both Bose gas and Fermi gas
International audienceIn this note, we present a general way to construct spectral methods for the c...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
41 pagesInternational audienceThe development of accurate and fast algorithms for the Boltzmann coll...
In this paper we develop high order asymptotic preserving methods for the spatially inhomogeneous qu...
In this paper we develop high order asymptotic preserving methods for the spatially inhomogeneous qu...
In this paper we develop high order asymptotic preserving methods for the spatially inhomogeneous qu...
In this note we discuss the construction of high order asymptotic preserving numerical schemes for t...
We consider the development of exponential methods for the robust time discretization of space inhom...
International audienceNumerically solving the Boltzmann kinetic equations with the small Knudsen num...
International audienceNumerically solving the Boltzmann kinetic equations with the small Knudsen num...
Spectral methods, thanks to the high accuracy and the possibility to use fast algorithms, represent ...
We introduce a class of exponential Runge–Kutta integration methods for kinetic equations. The metho...
Numerically solving the Boltzmann kinetic equations with the small Knudsen number is chall...
We discuss Implicit-Explicit (IMEX) Runge Kutta methods which are particularly adapted to stiff kine...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
International audienceIn this note, we present a general way to construct spectral methods for the c...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
41 pagesInternational audienceThe development of accurate and fast algorithms for the Boltzmann coll...
In this paper we develop high order asymptotic preserving methods for the spatially inhomogeneous qu...
In this paper we develop high order asymptotic preserving methods for the spatially inhomogeneous qu...
In this paper we develop high order asymptotic preserving methods for the spatially inhomogeneous qu...
In this note we discuss the construction of high order asymptotic preserving numerical schemes for t...
We consider the development of exponential methods for the robust time discretization of space inhom...
International audienceNumerically solving the Boltzmann kinetic equations with the small Knudsen num...
International audienceNumerically solving the Boltzmann kinetic equations with the small Knudsen num...
Spectral methods, thanks to the high accuracy and the possibility to use fast algorithms, represent ...
We introduce a class of exponential Runge–Kutta integration methods for kinetic equations. The metho...
Numerically solving the Boltzmann kinetic equations with the small Knudsen number is chall...
We discuss Implicit-Explicit (IMEX) Runge Kutta methods which are particularly adapted to stiff kine...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
International audienceIn this note, we present a general way to construct spectral methods for the c...
The Boltzmann equation, an integro-differential equation for the molecular distribution function in ...
41 pagesInternational audienceThe development of accurate and fast algorithms for the Boltzmann coll...