A high-order discontinuous Galerkin in time discretization for second-order hyperbolic equations
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The aim of this paper is to apply a high-order discontinuous-in-time scheme to second-order hyperbolic partial differential equations (PDEs). We first discretize the PDEs in time while keeping the spatial differential operators undiscretized. The well-posedness of this semi-discrete scheme is analyzed and a priori error estimates are derived in the energy norm. We then combine this hp-version discontinuous Galerkin method for temporal discretization with an H^1-conforming finite element approximation for the spatial variables to construct a fully discrete scheme. A prior error estimates are derived both in the energy norm and the L^2-norm. Numerical experiments are presented to verify the theoretical results.
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