Fictitious domain finite element methods using cut elements: II. A stabilized Nitsche method

Erik Burman; Peter F G Hansbo

doi:10.1016/j.apnum.2011.01.008

Journal article, 2012

We extend the classical Nitsche type weak boundary conditions to a fictitious domain setting. An additional penalty term, acting on the jumps of the gradients over element faces in the interface zone, is added to ensure that the conditioning of the matrix is independent of how the boundary cuts the mesh. Optimal a priori error estimates in the H-1- and L-2-norms are proved as well as an upper bound on the condition number of the system matrix.

Finite element

Fictitious domain

Interior penalty

Author

Erik Burman

University of Sussex

Peter F G Hansbo

Chalmers, Mathematical Sciences, Mathematics

University of Gothenburg

Other publications Research

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Fictitious domain finite element methods using cut elements: II. A stabilized Nitsche method
Journal article, 2012

Author

Erik Burman

Peter F G Hansbo

Applied Numerical Mathematics

Subject Categories (SSIF 2011)

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