On existence and uniqueness of solutions for semilinear fractional wave equations

Abstract

Let be a C2-bounded domain of Rd, d=2,3, and fix Q=(0,T)× with T∈(0,+∞]. In the present paper we consider a Dirichlet initial-boundary value problem associated to the semilinear fractional wave equation ∂tα u+ A u=fb(u) in Q where 1<α<2, ∂tα corresponds to the Caputo fractional derivative of order α, A is an elliptic operator and the nonlinearity fb∈ C1( R) satisfies fb(0)=0 and |fb'(u)|≤ C|u|b-1 for some b>1. We first provide a definition of local weak solutions of this problem by applying some properties of the associated linear equation ∂tα u+ A u=f(t,x) in Q. Then, we prove existence of local solutions of the semilinear fractional wave equation for some suitable values of b>1. Moreover, we obtain an explicit dependence of the time of existence of solutions with respect to the initial data that allows longer time of existence for small initial data.