Philip T. Gressman, Robert M. Strain
Published 2009-12-04, updated 2010-11-29Version 2
We prove the existence and exponential decay of global in time strong solutions to the Boltzmann equation without any angular cut-off, i.e., for long-range interactions. We consider perturbations of the Maxwellian equilibrium states and include the physical cross-sections arising from an inverse-power intermolecular potential $r^{-(p-1)}$ with $p>3$, and more generally, the full range of angular singularities $s=\nu/2 \in(0,1)$. These appear to be the first unique global solutions to this fundamentally important model, which grants a basic example where a range of geometric fractional derivatives occur in a physical model of the natural world. Our methods provide a new understanding of the effects of grazing collisions in the Boltzmann theory.
Comments: This file has not changed, but this work has been combined with (arXiv:1002.3639v1), simplified and extended into a new preprint, please see the updated version: arXiv:1011.5441v1
Global Classical Solutions of the Boltzmann Equation with Long-Range Interactions and Soft Potentials
A new regularization possibility for the Boltzmann equation with soft potentials
Entropic convergence and the linearized limit for the Boltzmann equation with external force
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