Add to ORKGWe use a constant "driving force " F a together with a Gaussian thermostatting "constraint force " F,. to simulate a nonequilibrium steady-state current (particle velocity) in a periodic, two-dimensional, c assical Lorentz gas. The ratio of the average particle velocity to the driving force (field strength) is the Lorentz-gas conductivity. A regular "Galton-board " lattice of fixed particles is arranged in a dense triangular-lattice structure. The moving scatterer particle travels through the lattice at constant kinetic energy, making elastic hard-disk collisions with the fixed particles. At low field strengths the nonequilibrium conductivity is statistically indistinguishable from the equilibrium Green-Kubo es...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
We study the stationary state of a one-dimensional kinetic model where a probe particle is driven by...
We study numerically and analytically the properties of the stationary state of a particle moving un...
The periodic Lorentz gas is a paradigmatic model to examine how macroscopic transport emerges from m...
The Lorentz gas (LG) acts in the theory of dynamical systems as a paradigm allowing us to address fu...
We present a detailed study of the first simple mechanical system that shows fully realistic transpo...
We present a detailed study of the first simple mechanical system that shows fully realistic transpo...
We study the stationary nonequilibrium states of N-point particles moving under the influence of an ...
The periodic Lorentz gas is a paradigmatic model to examine how macroscopic transport emerges from m...
The periodic Lorentz gas describes an ensemble of non-interacting point particles in a periodic arra...
This is a post-peer-review, pre-copyedit version of an article published in Journal of Statistical P...
We study the stationary state of a one-dimensional kinetic model where a probe particle is driven by...
We study the stationary state of a one-dimensional kinetic model where a probe particle is driven by...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
We study the stationary state of a one-dimensional kinetic model where a probe particle is driven by...
We study numerically and analytically the properties of the stationary state of a particle moving un...
The periodic Lorentz gas is a paradigmatic model to examine how macroscopic transport emerges from m...
The Lorentz gas (LG) acts in the theory of dynamical systems as a paradigm allowing us to address fu...
We present a detailed study of the first simple mechanical system that shows fully realistic transpo...
We present a detailed study of the first simple mechanical system that shows fully realistic transpo...
We study the stationary nonequilibrium states of N-point particles moving under the influence of an ...
The periodic Lorentz gas is a paradigmatic model to examine how macroscopic transport emerges from m...
The periodic Lorentz gas describes an ensemble of non-interacting point particles in a periodic arra...
This is a post-peer-review, pre-copyedit version of an article published in Journal of Statistical P...
We study the stationary state of a one-dimensional kinetic model where a probe particle is driven by...
We study the stationary state of a one-dimensional kinetic model where a probe particle is driven by...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
Motivated by electronic transport in graphenelike structures, we study the diffusion of a classical ...
We study the stationary state of a one-dimensional kinetic model where a probe particle is driven by...