Fully discrete finite element scheme for Maxwellʹs equations with non-linear boundary condition

We study a full Maxwellʹs system accompanied with a non-linear degenerate boundary condition, which represents a generalization of the classical Silver–Müller condition for a non-perfect conductor. The relationship between the normal components of electric E and magnetic H field obeys the following power law ν × H = ν × ( | E × ν | α − 1 E × ν ) for some α ∈ ( 0 , 1 ] . We establish the existence and uniqueness of a weak solution in a suitable function spaces under the minimal regularity assumptions on the boundary Γ and the initial data E 0 and H 0 . We design a non-linear time discrete approximation scheme and prove convergence of the approximations to a weak solution. We also derive the error estimates for the time discretization. As a next step we study the fully discrete problem using curl-conforming edge elements and derive the corresponding error estimates. Finally we present some numerical experiments.