DISCONTINUOUS GALERKIN FINITE ELEMENT METHODS FOR INTERFACE PROBLEMS: A PRIORI AND A POSTERIORI ERROR ESTIMATIONS

Discontinuous Galerkin (DG) finite element methods were studied by many researchers for second-order elliptic partial differential equations, and a priori error estimates were established when the solution of the underlying problem is piecewise H 3/2+є smooth with є > 0. However, elliptic interface problems with intersecting interfaces do not possess such a smoothness. In this paper, we establish a quasi-optimal a priori error estimate for interface problems whose solutions are only H 1+α smooth with α ∈ (0, 1) and, hence, fill a theoretical gap of the DG method for lliptic problems with low regularity. The second part of the paper deals with the design and analysis of robust residual-and recovery-based a posteriori error estimators. Theoretically, we show that the residual and recovery estimators studied in this paper are robust with respect to the DG norm, i.e., their reliability and efficiency bounds do not depend on the jump, provided that the distribution of coefficients is locally quasi-monotone.