Long-time heat kernel estimates and upper rate functions of Brownian motion type for symmetric jump processes
Long-time heat kernel estimates and upper rate functions of Brownian motion type for symmetric jump processes
Let $X$ be a symmetric jump process on $\mathbb{R}^{d}$ such that the corresponding jumping kernel $J(x,y)$ satisfies \[J(x,y)\le\frac{c}{|x-y|^{d+2}\log^{1+\varepsilon}(e+|x-y|)}\] for all $x,y\in\mathbb{R}^{d}$ with $|x-y|\ge1$ and some constants $c,\varepsilon>0$. Under additional mild assumptions on $J(x,y)$ for $|x-y|<1$, we show that $C\sqrt{r\log\log r}$ with some constant $C>0$ is an upper rate function of …