Abstract: In this talk I will discuss heat kernel estimates for critical perturbations of non-local operators.

To be more precise, let $X$ be the reflected $\alpha$-stable process in the closure of a smooth open set $D$,

and $X^D$ the process killed upon exiting $D$. We consider potentials of the form $\kappa(x)=C\delta_

D(x)^{-\alpha}$ with positive $C$ and the corresponding Feynman-Kac semigroups. Such potentials do not

belong to the Kato class. We obtain sharp two-sided estimates for the heat kernel of the perturbed

semigroups. The interior estimates of the heat kernels have the usual $\alpha$-stable form, while the

boundary decay is of the form $\delta_D(x)^p$ with non-negative $p\in [\alpha-1, \alpha)$ depending on the

precise value of the constant $C$. Our result recovers the heat kernel estimates of both the censored and the

killed stable process in $D$. Analogous estimates are obtained for the heat kernel of the Feynman-Kac

semigroup of the $\alpha$-stable process in ${\mathbf R}^d\setminus \{0\}$ through the potential

$C|x|^{-\alpha}$. All estimates are derived from a more general result described as follows: Let $X$ be a

Hunt process on a locally compact separable metric space in a strong duality with $\widehat{X}$. Assume

that transition densities of $X$ and $\widehat{X}$ are comparable to the function $\widetilde{q}(t,x,y)$

defined in terms of the volume of balls and a certain scaling function. For an open set $D$ consider the

killed process $X^D$, and a critical smooth measure on $D$ with the corresponding positive additive

functional $(A_t)$. We show that the heat kernel of the the Feynman-Kac semigroup of $X^D$ through

the multiplicative functional $\exp(-A_t)$ admits the factorization of the form ${\mathbf P}_x(\zeta >t)\

widehat{\mathbf P}_y(\widehat{\zeta}>t)\widetilde{q}(t,x,y)$.

This is joint work with Soobin Cho, Panki Kim and Zoran Vondracek.