Kinetic time-inhomogeneous L\'evy-driven model
Abstract
We study a one-dimensional kinetic stochastic model driven by a L\'evy process with a non-linear time-inhomogeneous drift. More precisely, the process (V,X) is considered, where X is the position of the particle and its velocity V is the solution of a stochastic differential equation with a drift of the form t-βF(v). The driving process can be a stable L\'evy process of index α or a general L\'evy process under appropriate assumptions. The function F satisfies a homogeneity condition and β is non-negative. The behavior in large time of the process (V,X) is proved and the precise rate of convergence is pointed out by using stochastic analysis tools. To this end, we compute the moment estimates of the velocity process.
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