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Article Dans Une Revue Numerical Methods for Partial Differential Equations Année : 2022

A new $\phi$-FEM approach for problems with natural boundary conditions

Résumé

We present a new finite element method, called $φ$-FEM, to solve numerically elliptic partial differential equations with natural (Neumann or Robin) boundary conditions using simple computational grids, not fitted to the boundary of the physical domain. The boundary data are taken into account using a level-set function, which is a popular tool to deal with complicated or evolving domains. Our approach belongs to the family of fictitious domain methods (or immersed boundary methods) and is close to recent methods of cutFEM/XFEM type. Contrary to the latter, $φ$-FEM does not need any non-standard numerical integration on cut mesh elements or on the actual boundary, while assuring the optimal convergence orders with finite elements of any degree and providing reasonably well conditioned discrete problems. In the first version of $φ$-FEM, only essential (Dirichlet) boundary conditions was considered. Here, to deal with natural boundary conditions, we introduce the gradient of the primary solution as an auxiliary variable. This is done only on the mesh cells cut by the boundary, so that the size of the numerical system is only slightly increased . We prove theoretically the optimal convergence of our scheme and a bound on the discrete problem conditioning, independent of the mesh cuts. The numerical experiments confirm these results.
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Dates et versions

hal-02521042 , version 1 (27-03-2020)
hal-02521042 , version 2 (13-11-2020)
hal-02521042 , version 3 (11-01-2022)

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Michel Duprez, Vanessa Lleras, Alexei Lozinski. A new $\phi$-FEM approach for problems with natural boundary conditions. Numerical Methods for Partial Differential Equations, inPress. ⟨hal-02521042v2⟩
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