Space-time fractional stochastic partial differential equations driven by L\'evy white noise

Abstract

This paper is concerned with the following space-time fractional stochastic nonlinear partial differential equation equation* (∂tβ+2(-)α / 2) u=Itγ[ f(t,x,u)-Σi=1d ∂∂ xi qi(t,x,u)+ σ(t,x,u) Ft,x] equation* for a random field u(t,x):[0,∞)×Rd , where α>0, β∈(0,2), γ0, >0, Ft,x is a L\'evy space-time white noise, Itγ stands for the Riemann-Liouville integral in time, and f,qi,σ:[0,∞)×Rd×R are measurable functions. Under suitable polynomial growth conditions, we establish the existence and uniqueness of L2(Rd)-valued local solutions when the L\'evy white noise Ft,x contains Gaussian noise component. Furthermore, for p∈[1,2], we derive the existence and uniqueness of Lp(Rd)-valued local solutions for the equation driven by pure jump L\'evy white noise. Finally, we obtain certain stronger conditions for the existence and uniqueness of global solutions.