Finite element systems of differential forms
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We develop the theory of mixed finite elements in terms of special inverse systems of complexes of differential forms, defined over cellular complexes. Inclusion of cells corresponds to pullback of forms. The theory covers for instance composite piecewise polynomial finite elements of variable order over polyhedral grids. Under natural algebraic and metric conditions, interpolators and smoothers are constructed, which commute with the exterior derivative and whose product is uniformly stable in Lebesgue spaces. As a consequence we obtain not only eigenpair approximation for the Hodge-Laplacian in mixed form, but also variants of Sobolev injections and translation estimates adapted to variational discretizations.
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Finite elements for symmetric and traceless tensors in three dimensions
Constructs exact finite element sub-complexes for the conformal complex on tetrahedra, producing discrete TT tensors with shown inf-sup stability for H(div) symmetric traceless elements paired with discontinuous vectors.
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