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A family of finite element Stokes complexes in three dimensions.
Kaibo Hu,Qian Zhang,Zhimin Zhang +2 more
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TLDR
It is shown that the new elements lead to convergent algorithms for solving a gradcurl model problem as well as solving the Stokes system with precise divergence-free condition and the validity of the algorithms is demonstrated by numerical experiments.Abstract:
We construct finite element Stokes complexes on tetrahedral meshes in three-dimensional space. In the lowest order case, the finite elements in the complex have 4, 18, 16, and 1 degrees of freedom, respectively. As a consequence, we obtain gradcurl-conforming finite elements and inf-sup stable Stokes pairs on tetrahedra which fit into complexes. We show that the new elements lead to convergent algorithms for solving a gradcurl model problem as well as solving the Stokes system with precise divergence-free condition. We demonstrate the validity of the algorithms by numerical experiments.read more
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Fundamentals Of Differential Geometry
TL;DR: The fundamentals of differential geometry is universally compatible with any devices to read, and is available in the digital library an online access to it is set as public so you can download it instantly.
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Nonconforming finite element Stokes complexes in three dimensions.
TL;DR: By the nonconforming finite element Stokes complexes, the mixed finite element methods of the quad-curl problem is decoupled into two mixed method of the Maxwell equation and thenonconforming $P_1$-$P_0$ element method for the Stokes equation, based on which a fast solver is developed.
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Nonconforming finite element Stokes complexes in three dimensions
TL;DR: In this article , two nonconforming finite element Stokes complexes starting from the conforming Lagrange element and ending with the non-conforming P1-P0 element for the Stokes equation in three dimensions are studied.
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Finite Element de Rham and Stokes Complexes in Three Dimensions
Long Chen,Xuehai Huang +1 more
TL;DR: In this paper , a non-overlapping decomposition of the simplicial lattice of finite element de Rham complexes with various smoothness in three dimensions is presented. And the exactness of these finite element complexes is established.
References
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Book
The Mathematical Theory of Finite Element Methods
TL;DR: In this article, the construction of a finite element of space in Sobolev spaces has been studied in the context of operator-interpolation theory in n-dimensional variational problems.
Book
Finite Element Methods for Navier-Stokes Equations: Theory and Algorithms
TL;DR: This paper presents the results of an analysis of the "Stream Function-Vorticity-Pressure" Method for the Stokes Problem in Two Dimensions and its applications to Mixed Approximation and Homogeneous Stokes Equations.
Journal ArticleDOI
Effects of couple-stresses in linear elasticity
Journal ArticleDOI
Finite element interpolation of nonsmooth functions satisfying boundary conditions
L. Ridgway Scott,Shangyou Zhang +1 more
TL;DR: In this article, a modified Lagrange type interpolation operator is proposed to approximate functions in Sobolev spaces by continuous piecewise polynomials, and the combination of averaging and interpolation is shown to be a projection, and optimal error estimates are proved for the projection error.
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