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
A paradigm for isothermal, mechanical rectification of stochastic uctuations is introduced in this p...
We report on numerical simulations of the dynamics of a test particle coupled to competing Boltzmann...
Fluctuation theorems are fundamental extensions of the second law of thermodynamics for small nonequ...
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...
Equilibrium states are used as limit states to define thermodynamically reversible processes. When t...
We revisit the paradigm of an ideal gas under isothermal conditions. A moving piston performs work o...
A closed macroscopic equation for the motion of the two-dimensional adiabatic piston is derived from...
Demonstrating how microscopic dynamics cause large systems to approach thermal equilibrium remains a...
A detailed analysis of the adiabatic-piston problem reveals peculiar dynamical features that challen...
Thermodynamic geometry provides a physically transparent framework to describe thermodynamic process...
Engines are open systems that can generate work cyclically at the expense of an external disequilibr...
textTextEcole d'ete de physique theorique. Les Houches, Haute-Savoie, FranceLecture notes by George ...
Equilibrium states are used as limit states to define thermodynamically reversible processes. When t...
We study the transport properties of an overdamped Brownian particle which is simultaneously in cont...
A paradigm for isothermal, mechanical rectification of stochastic uctuations is introduced in this p...
We report on numerical simulations of the dynamics of a test particle coupled to competing Boltzmann...
Fluctuation theorems are fundamental extensions of the second law of thermodynamics for small nonequ...
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...
Equilibrium states are used as limit states to define thermodynamically reversible processes. When t...
We revisit the paradigm of an ideal gas under isothermal conditions. A moving piston performs work o...
A closed macroscopic equation for the motion of the two-dimensional adiabatic piston is derived from...
Demonstrating how microscopic dynamics cause large systems to approach thermal equilibrium remains a...
A detailed analysis of the adiabatic-piston problem reveals peculiar dynamical features that challen...
Thermodynamic geometry provides a physically transparent framework to describe thermodynamic process...
Engines are open systems that can generate work cyclically at the expense of an external disequilibr...
textTextEcole d'ete de physique theorique. Les Houches, Haute-Savoie, FranceLecture notes by George ...
Equilibrium states are used as limit states to define thermodynamically reversible processes. When t...
We study the transport properties of an overdamped Brownian particle which is simultaneously in cont...
A paradigm for isothermal, mechanical rectification of stochastic uctuations is introduced in this p...
We report on numerical simulations of the dynamics of a test particle coupled to competing Boltzmann...
Fluctuation theorems are fundamental extensions of the second law of thermodynamics for small nonequ...