Hybridizable Staggered Discontinuous Galerkin Methods for Polyharmonic Equations on Polytopes
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Abstract
Hybridizable staggered discontinuous Galerkin methods are developed for arbitrary-order polyharmonic equations $(-\Delta)^m u=f$ on shape-regular polytopal meshes in $\mathbb R^d$, for any $m\ge1$, $d\ge2$, and polynomial degree $k\ge0$.
The method uses the mixed variable $\sigma=\nabla^m u$ and a staggered primal--dual mesh to impose complementary continuity on scalar and tensor unknowns, without restrictions such as $d\ge m$.
Local trace and bubble enrichments stabilize low-order tensor spaces without adding global unknowns.
Hybridization localizes the tensor variable and yields an equivalent stabilization-free weak Galerkin formulation.
Well-posedness and optimal energy error estimates are proved, and numerical experiments on polygonal and tetrahedral meshes confirm the predicted rates.