Homogenization of time-fractional diffusion equations with periodic coefficients

Abstract

We consider the initial boundary value problem for the time-fractional diffusion equation with a homogeneous Dirichlet boundary condition and an inhomogeneous initial data a(x)∈ L2(D) in a bounded domain D⊂ Rd with a sufficiently smooth boundary. We analyze the homogenized solution under the assumption that the diffusion coefficient κε(x) is smooth and periodic with the period ε>0 being sufficiently small. We derive that its first order approximation has a convergence rate of O(ε1/2) when the dimension d≤ 2 and O(ε1/6) when d=3. Several numerical tests are presented to show the performance of the first order approximation.