Smooth measures and capacities associated with nonlocal parabolic operators

Abstract: We consider a family ${L_t,\, t\in [0,T]}$ of closed operators generated by a family of regular (non-symmetric) Dirichlet forms ${(B^{(t)},V),t\in[0,T]}$ on $L^2(E;m)$. We show that a bounded (signed) measure $\mu$ on $(0,T)\times E$ is smooth, i.e. charges no set of zero parabolic capacity associated with $\frac{\partial}{\partial t}+L_t$, if and only if $\mu$ is of the form $\mu=f\cdot m_1+g_1+\partial_tg_2$ with $f\in L^1((0,T)\times E;dt\otimes m)$, $g_1\in L^2(0,T;V')$, $g_2\in L^2(0,T;V)$. We apply this decomposition to the study of the structure of additive functionals in the Revuz correspondence with smooth measures. As a by-product, we also give some existence and uniqueness results for solutions of semilinear equations involving the operator $\frac{\partial}{\partial t}+L_t$ and a functional from the dual $\mathcal{W}'$ of the space $\mathcal{W}={u\in L^2(0,T;V):\partial_t u\in L^2(0,T;V')}$ on the right-hand side of the equation.