On the Initial Boundary Value Problem to the Time-Fractional Wave Equation with Acoustic Boundary Conditions

Abstract

This paper is concerned with the study of the well-posedeness for the initial boundary value problem to the time-fractional wave equation with acoustic boundary conditions. The problem is considered in a bounded and connected domain ⊂ Rn, n ≥ 2, which includes simply connected regions. The boundary of is made up of two disjoint pieces 0 and 1. Homogeneous Dirichlet conditions are enforced on 0, while acoustic boundary conditions are considered on 1. To establish our main result, we employ the Faedo-Galerkin method and successfully solve a general system of time-fractional ordinary differential equations which extends the scope of the classical Picard-Lindel\"of theorem.