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Solving the Fokker-Planck kinetic equation on a lattice | Daniele Moroni
; Benjamin Rotenberg
; Jean-Pierre Hansen
; Sauro Succi
; Simone Melchionna
; | Date: |
20 Dec 2005 | Subject: | Statistical Mechanics | Abstract: | We propose a discrete lattice version of the Fokker-Planck kinetic equation along lines similar to the Lattice-Boltzmann scheme. Our work extends an earlier one-dimensional formulation to arbitrary spatial dimension $D$. A generalized Hermite-Gauss procedure is used to construct a discretized kinetic equation and a Chapman-Enskog expansion is applied to adapt the scheme so as to correctly reproduce the macroscopic continuum equations. The stability of the algorithm with respect to the finite time-step $Delta t$ is characterized by the eigenvalues of the collision matrix. A heuristic second-order algorithm in $Delta t$ is applied to investigate the time evolution of the distribution function of simple model systems, and compared to known analytical solutions. Preliminary investigations of sedimenting Brownian particles subjected to an orthogonal centrifugal force illustrate the numerical efficiency of the Lattice-Fokker-Planck algorithm to simulate non-trivial situations. Interactions between Brownian particles may be accounted for by adding a standard BGK collision operator to the discretized Fokker-Planck kernel. | Source: | arXiv, cond-mat/0512497 | Other source: | [GID 467611] pmid16907023 | Services: | Forum | Review | PDF | Favorites |
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