A strong approximation in L2 for the solutions of the Maxwell system with highly oscillating periodic coefficients

Abstract

We consider a Maxwell system on R3 with periodic and highly oscillating coefficients. It is known that the solutions converge in the weak- topology of L∞(0,T;\,L2(R3)) to the solution of a similar problem with constant coefficients given as the H-limits of the electric permittivity and the magnetic permeability respectively, i.e. the limit in the sense of the homogenization of linear elliptic equations with varying coefficients. However, it is not true that the elliptic corrector also provides a corrector for the solution of the Maxwell system, i.e. an approximation of the solutions in the strong topology of L2. We shall prove that the oscillations in the space variable also produce oscillations in the time variable. We get a corrector consisting of adding to the elliptic corrector the sum of infinitely plane waves in the fast variable. Note that related results have been previously proved for the wave equation. Our proof is based on the two-scale convergence theory for almost periodic functions. One of the novelties is to show how this contains the classical Block decomposition.

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