Abstract
Abstract We study variants of the mixed finite element method (mixed FEM) and the first-order system least-squares finite element (FOSLS) for the Poisson problem where we replace the load by a suitable regularization which permits to use H â 1 H^{-1} loads. We prove that any bounded H â 1 H^{-1} projector onto piecewise constants can be used to define the regularization and yields quasi-optimality of the lowest-order mixed FEM resp. FOSLS in weaker norms. Examples for the construction of such projectors are given. One is based on the adjoint of a weighted ClĂ©ment quasi-interpolator. We prove that this ClĂ©ment operator has second-order approximation properties. For the modified mixed method, we show optimal convergence rates of a postprocessed solution under minimal regularity assumptionsâa result not valid for the lowest-order mixed FEM without regularization. Numerical examples conclude this work.
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