Heat kernel estimates for nonlocal kinetic operators
In this paper, we employ probabilistic techniques to derive sharp, explicit two-sided estimates for the heat kernel of the nonlocal kinetic operator $$ \Delta^{\alpha/2}_v + v \cdot \nabla_x, \quad \alpha \in (0, 2),\ (x,v)\in {\mathbb R}^{d}\times{\mathbb R}^d,$$ where $ \Delta^{\alpha/2}_v $ repre...
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| Zusammenfassung: | In this paper, we employ probabilistic techniques to derive sharp, explicit
two-sided estimates for the heat kernel of the nonlocal kinetic operator $$
\Delta^{\alpha/2}_v + v \cdot \nabla_x, \quad \alpha \in (0, 2),\ (x,v)\in
{\mathbb R}^{d}\times{\mathbb R}^d,$$ where $ \Delta^{\alpha/2}_v $ represents
the fractional Laplacian acting on the velocity variable $v$. Additionally, we
establish logarithmic gradient estimates with respect to both the spatial
variable $x$ and the velocity variable $v$. In fact, the estimates are
developed for more general non-symmetric stable-like operators, demonstrating
explicit dependence on the lower and upper bounds of the kernel functions.
These results, in particular, provide a solution to a fundamental problem in
the study of \emph{nonlocal} kinetic operators. |
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| DOI: | 10.48550/arxiv.2410.18614 |