Add to ORKGWe calculate the systematic average speed of the adiabatic piston and a thermal Brownian motor, introduced by C. Van den Broeck, R. Kawai and P. Meurs [Phys. Rev. Lett. 93, 090601 (2004)], by an expansion of the Boltzmann equation and compare with the exact numerical solution
The DSMC method is a successful and widely used tool for rarefied gas simulations while the gas kine...
We introduce a simple discrete model of a molecular heat engine. The engine's dynamics is strongly i...
With this work we investigate an often neglected aspect of Brownian motor transport: The role of flu...
We calculate the systematic average speed of the adiabatic piston and a thermal Brownian motor, intr...
In this paper, we present a model of a symmetric Brownian motor which changes the sign of its veloci...
We consider a massive inelastic piston, whose opposite faces have different coefficients of restitu...
A closed macroscopic equation for the motion of the two-dimensional adiabatic piston is derived from...
Abstract -An asymmetric object, undergoing dissipative collisions with surrounding particles, acquir...
We give a brief account of the development of methods to include thermal fluctuations into lattice B...
Alexander, Garcia and Alder [1] introduced the Consistent Boltzmann Algorithm (CBA) as a simple vari...
We consider a massive inelastic piston, whose opposite faces have different coefficients of restitut...
Abstract. Using two-dimensional numerical simulations of a granular gas excited by vibrating one of ...
The Boltzmann equation for a monatomic gas is derived with the aid of the adiabatic switching-off of...
We present an insightful `derivation' of the Langevin equation and the fluctuation dissipation theor...
The dynamics of a heavy particle in a gas of much lighter particles is studied via the Boltzmann-Lor...
The DSMC method is a successful and widely used tool for rarefied gas simulations while the gas kine...
We introduce a simple discrete model of a molecular heat engine. The engine's dynamics is strongly i...
With this work we investigate an often neglected aspect of Brownian motor transport: The role of flu...
We calculate the systematic average speed of the adiabatic piston and a thermal Brownian motor, intr...
In this paper, we present a model of a symmetric Brownian motor which changes the sign of its veloci...
We consider a massive inelastic piston, whose opposite faces have different coefficients of restitu...
A closed macroscopic equation for the motion of the two-dimensional adiabatic piston is derived from...
Abstract -An asymmetric object, undergoing dissipative collisions with surrounding particles, acquir...
We give a brief account of the development of methods to include thermal fluctuations into lattice B...
Alexander, Garcia and Alder [1] introduced the Consistent Boltzmann Algorithm (CBA) as a simple vari...
We consider a massive inelastic piston, whose opposite faces have different coefficients of restitut...
Abstract. Using two-dimensional numerical simulations of a granular gas excited by vibrating one of ...
The Boltzmann equation for a monatomic gas is derived with the aid of the adiabatic switching-off of...
We present an insightful `derivation' of the Langevin equation and the fluctuation dissipation theor...
The dynamics of a heavy particle in a gas of much lighter particles is studied via the Boltzmann-Lor...
The DSMC method is a successful and widely used tool for rarefied gas simulations while the gas kine...
We introduce a simple discrete model of a molecular heat engine. The engine's dynamics is strongly i...
With this work we investigate an often neglected aspect of Brownian motor transport: The role of flu...