Trace operators of the bi-Laplacian and applications
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Date
2021
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Publisher
OXFORD UNIV PRESS
Abstract
We study several trace operators and spaces that are related to the bi-Laplacian. They are motivated by the development of ultraweak formulations for the bi-Laplace equation with homogeneous Dirichlet condition, but are also relevant to describe conformity of mixed approximations. Our aim is to have well-posed (ultraweak) formulations that assume low regularity under the condition of an L-2 right-hand side function. We pursue two ways of defining traces and corresponding integration-by-parts formulas. In one case one obtains a nonclosed space. This can be fixed by switching to the Kirchhoff-Love traces from Fiihrer et al. (2019, An ultraweak formulation of the Kirchhoff-Love plate bending model and DPG approximation. Math. Comp., 88, 1587-1619). Using different combinations of trace operators we obtain two well-posed formulations. For both of them we report on numerical experiments with the discontinuous Petrov-Galerkin method and optimal test functions. In this paper we consider two and three space dimensions. However, with the exception of a given counterexample in an appendix (related to the nonclosedness of a trace space) our analysis applies to any space dimension larger than or equal to two.
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Keywords
bi-Laplacian, biharmonic operator, trace operator, fourth-order elliptic PDE, ultraweak formulation, discontinuous Petrov-Galerkin method, optimal test functions, ROBUST DPG METHOD, EQUATIONS, DOMAINS