We use the mesoscopic nonequilibrium thermodynamics theory to derive the general kinetic equation of a system in the presence of potential barriers. The result is applied to a description of the evolution of systems whose dynamics is influenced by entropic barriers. We analyze in detail the case of diffusion in a domain of irregular geometry in which the presence of the boundaries induces an entropy barrier when approaching the exact dynamics by a coarsening of the description. The corresponding kinetic equation, named the Fick-Jacobs equation, is obtained, and its validity is generalized through the formulation of a scaling law for the diffusion coefficient which depends on the shape of the boundaries. The method we propose can be useful t...
International audienceWe investigate different models that are intended to describe the small mean f...
In this work, we consider extended irreversible thermodynamics in assuming that the entropy density ...
With this work we study biased, diffusive transport of Brownian particles through narrow, spatially ...
We use the mesoscopic nonequilibrium thermodynamics theory to derive the general kinetic equation of...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We analyze the mesoscopic dynamics of small-scale systems from the perspective of mesoscopic non-equ...
We analyze the mesoscopic dynamics of small-scale systems from the perspective of mesoscopic non-equ...
We analyze the mesoscopic dynamics of small-scale systems from the perspective of mesoscopic non-equ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
It is a well-known fact that, in small mean free path regimes, kinetic equations can lead to diffusi...
Basic concepts like energy, heat, and temperature have acquired a precise meaning after the developm...
Seifert derived an exact fluctuation relation for diffusion processes using the concept of "stochast...
International audienceWe investigate different models that are intended to describe the small mean f...
In this work, we consider extended irreversible thermodynamics in assuming that the entropy density ...
With this work we study biased, diffusive transport of Brownian particles through narrow, spatially ...
We use the mesoscopic nonequilibrium thermodynamics theory to derive the general kinetic equation of...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
We analyze the mesoscopic dynamics of small-scale systems from the perspective of mesoscopic non-equ...
We analyze the mesoscopic dynamics of small-scale systems from the perspective of mesoscopic non-equ...
We analyze the mesoscopic dynamics of small-scale systems from the perspective of mesoscopic non-equ...
We show that transport in the presence of entropic barriers exhibits peculiar characteristics which ...
It is a well-known fact that, in small mean free path regimes, kinetic equations can lead to diffusi...
Basic concepts like energy, heat, and temperature have acquired a precise meaning after the developm...
Seifert derived an exact fluctuation relation for diffusion processes using the concept of "stochast...
International audienceWe investigate different models that are intended to describe the small mean f...
In this work, we consider extended irreversible thermodynamics in assuming that the entropy density ...
With this work we study biased, diffusive transport of Brownian particles through narrow, spatially ...
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