Stable finite element methods preserving ∇·B=0 exactly for MHD models

This paper is devoted to the design and analysis of some structure-preserving finite element schemes for the magnetohydrodynamics (MHD) system. The main feature of the method is that it naturally preserves the important Gauss’s law, namely ∇ · B = 0 . In contrast to most existing approaches that eli...

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Published in	Numerische Mathematik Vol. 135; no. 2; pp. 371 - 396
Main Authors	Hu, Kaibo, Ma, Yicong, Xu, Jinchao
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.02.2017 Springer Nature B.V
Subjects	Electric fields Finite element method Linearization Magnetic fields Magnetohydrodynamics Mathematical and Computational Engineering Mathematical and Computational Physics Mathematical Methods in Physics Mathematics Mathematics and Statistics Nonlinear systems Numerical Analysis Numerical and Computational Physics Simulation Theoretical Well posed problems 76W05 65M60 65N30
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ISSN	0029-599X 0945-3245
DOI	10.1007/s00211-016-0803-4

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Abstract	This paper is devoted to the design and analysis of some structure-preserving finite element schemes for the magnetohydrodynamics (MHD) system. The main feature of the method is that it naturally preserves the important Gauss’s law, namely ∇ · B = 0 . In contrast to most existing approaches that eliminate the electrical field variable E and give a direct discretization of the magnetic field, our new approach discretizes the electric field E by Nédélec type edge elements for H ( curl ) , while the magnetic field B by Raviart–Thomas type face elements for H ( div ) . As a result, the divergence-free condition on the magnetic field holds exactly on the discrete level. For this new finite element method, an energy stability estimate can be naturally established in an analogous way as in the continuous case. Furthermore, well-posedness is rigorously established in the paper for the Picard linearization of the fully nonlinear systems by using the Brezzi theory. This well-posedness naturally leads to robust (and optimal) preconditioners for the linearized systems.
AbstractList	This paper is devoted to the design and analysis of some structure-preserving finite element schemes for the magnetohydrodynamics (MHD) system. The main feature of the method is that it naturally preserves the important Gauss’s law, namely ∇ · B = 0 . In contrast to most existing approaches that eliminate the electrical field variable E and give a direct discretization of the magnetic field, our new approach discretizes the electric field E by Nédélec type edge elements for H ( curl ) , while the magnetic field B by Raviart–Thomas type face elements for H ( div ) . As a result, the divergence-free condition on the magnetic field holds exactly on the discrete level. For this new finite element method, an energy stability estimate can be naturally established in an analogous way as in the continuous case. Furthermore, well-posedness is rigorously established in the paper for the Picard linearization of the fully nonlinear systems by using the Brezzi theory. This well-posedness naturally leads to robust (and optimal) preconditioners for the linearized systems. This paper is devoted to the design and analysis of some structure-preserving finite element schemes for the magnetohydrodynamics (MHD) system. The main feature of the method is that it naturally preserves the important Gauss’s law, namely ∇ · B = 0 . In contrast to most existing approaches that eliminate the electrical field variable E and give a direct discretization of the magnetic field, our new approach discretizes the electric field E by Nédélec type edge elements for H ( curl ) , while the magnetic field B by Raviart–Thomas type face elements for H ( div ) . As a result, the divergence-free condition on the magnetic field holds exactly on the discrete level. For this new finite element method, an energy stability estimate can be naturally established in an analogous way as in the continuous case. Furthermore, well-posedness is rigorously established in the paper for the Picard linearization of the fully nonlinear systems by using the Brezzi theory. This well-posedness naturally leads to robust (and optimal) preconditioners for the linearized systems.
Author	Ma, Yicong Xu, Jinchao Hu, Kaibo
Author_xml	– sequence: 1 givenname: Kaibo surname: Hu fullname: Hu, Kaibo organization: Beijing International Center for Mathematical Research, Peking University – sequence: 2 givenname: Yicong surname: Ma fullname: Ma, Yicong organization: Department of Mathematics, The Pennsylvania State University – sequence: 3 givenname: Jinchao surname: Xu fullname: Xu, Jinchao email: xu@math.psu.edu organization: Department of Mathematics, The Pennsylvania State University
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SubjectTerms	Electric fields Finite element method Linearization Magnetic fields Magnetohydrodynamics Mathematical and Computational Engineering Mathematical and Computational Physics Mathematical Methods in Physics Mathematics Mathematics and Statistics Nonlinear systems Numerical Analysis Numerical and Computational Physics Simulation Theoretical Well posed problems
Title	Stable finite element methods preserving ∇·B=0 exactly for MHD models
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