Multifractal properties of sample paths of ground state-transformed jump processes

Abstract

We consider a class of L\'evy-type processes with unbounded coefficients, arising as Doob h-transforms of Feynman-Kac type representations of non-local Schr\"odinger operators, where the function h is chosen to be the ground state of such an operator. First, we show the existence of a c\`adl\`ag version of the so-obtained ground state-transformed processes. Next, we prove that they satisfy a related stochastic differential equation with jumps. Making use of this SDE, we then derive and prove the multifractal spectrum of local H\"older exponents of sample paths of ground state-transformed processes.