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Three Low Order H-Curl-Curl Finite Elements on Triangular Meshes

  • Shangyou Zhang ORCID logo EMAIL logo
Published/Copyright: October 4, 2023
Computational Methods in Applied Mathematics
From the journal Computational Methods in Applied Mathematics Volume 24 Issue 4

Abstract

We construct three H-curl-curl finite elements. The P 2 and P 3 vector finite element spaces are both enriched by one common P 4 bubble and their local degrees of freedom are 13 and 21, respectively. As there does not exist any P 1 H-curl-curl conforming finite element, the P 1 H-curl-curl nonconforming finite element is constructed with three additional P 4 bubbles. Numerical tests are presented, confirming the conformity and the optimal order of convergence.

Keywords: H-Curl-Curl; Quad-Curl Equation; Finite Element; Triangular Grids
MSC 2020: 65N15; 65N30

References

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Received: 2022-12-01
Accepted: 2023-08-03
Published Online: 2023-10-04
Published in Print: 2024-10-01

© 2023 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Reconstruction of the Radiation Condition and Solution for the Helmholtz Equation in a Semi-infinite Strip from Cauchy Data on an Interior Segment
  3. Numerical Approximation of Gaussian Random Fields on Closed Surfaces
  4. Multivariate Analysis-Suitable T-Splines of Arbitrary Degree
  5. Symmetrized Two-Scale Finite Element Discretizations for Partial Differential Equations with Symmetric Solutions
  6. Relaxation Quadratic Approximation Greedy Pursuit Method Based on Sparse Learning
  7. Optimal Pressure Recovery Using an Ultra-Weak Finite Element Method for the Pressure Poisson Equation and a Least-Squares Approach for the Gradient Equation
  8. Discontinuous Galerkin Two-Grid Method for the Transient Navier–Stokes Equations
  9. An Optimal Method for High-Order Mixed Derivatives of Bivariate Functions
  10. A Convenient Inclusion of Inhomogeneous Boundary Conditions in Minimal Residual Methods
  11. A 𝐶1-𝑃7 Bell Finite Element on Triangle
  12. A Conforming Virtual Element Method for Parabolic Integro-Differential Equations
  13. Three Low Order H-Curl-Curl Finite Elements on Triangular Meshes
https://doi.org/10.1515/cmam-2023-0140
Keywords for this article
H-Curl-Curl; Quad-Curl Equation; Finite Element; Triangular Grids

Articles in the same Issue

  1. Frontmatter
  2. Reconstruction of the Radiation Condition and Solution for the Helmholtz Equation in a Semi-infinite Strip from Cauchy Data on an Interior Segment
  3. Numerical Approximation of Gaussian Random Fields on Closed Surfaces
  4. Multivariate Analysis-Suitable T-Splines of Arbitrary Degree
  5. Symmetrized Two-Scale Finite Element Discretizations for Partial Differential Equations with Symmetric Solutions
  6. Relaxation Quadratic Approximation Greedy Pursuit Method Based on Sparse Learning
  7. Optimal Pressure Recovery Using an Ultra-Weak Finite Element Method for the Pressure Poisson Equation and a Least-Squares Approach for the Gradient Equation
  8. Discontinuous Galerkin Two-Grid Method for the Transient Navier–Stokes Equations
  9. An Optimal Method for High-Order Mixed Derivatives of Bivariate Functions
  10. A Convenient Inclusion of Inhomogeneous Boundary Conditions in Minimal Residual Methods
  11. A 𝐶1-𝑃7 Bell Finite Element on Triangle
  12. A Conforming Virtual Element Method for Parabolic Integro-Differential Equations
  13. Three Low Order H-Curl-Curl Finite Elements on Triangular Meshes
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