Global well-posedness of Vlasov-Poisson-Boltzmann equations with neutral initial data and small relative entropy

Abstract

The dynamics of dilute plasma particles such as electrons and ions can be modeled by the fundamental two species Vlasov-Poisson-Boltzmann equations, which describes mutual interactions of plasma particles through collisions in the self-induced electric field. In this paper, we are concerned with global well-posedness of mild solutions to these equations. We establish the global existence and uniqueness of mild solutions to the two species Vlasov-Poisson-Boltzmann equations on the torus for a class of initial data with bounded time-velocity-weighted L∞ norm under a nearly neutral condition, along with smallness conditions on the L1xL∞v norm and defects in mass, energy and entropy. These conditions allow the initial data to exhibit large amplitude oscillations. Due to the nonlinear effect of electric field, we consider the problem in W1, ∞x,v with large amplitude data, new difficulty arises when establishing globally uniform W1, ∞x,v bound, which has been overcome based on nearly neutral condition, time-velocity weight function and a logarithmic estimate. Moreover,the long-time behavior of solutions in W1, ∞x,v norm, with exponential decay rates of convergence, is also obtained.

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