An $hp$-FEM for Singularly Perturbed Transmission Problems

Authors

  • Serge Nicaise LAMAV, Université de Valenciennes and CNRS, 59313 Valenciennes, France
  • Christos Xenophontos Department of Mathematics & Statistics, University of Cyprus, P.O. BOX 20537, Nicosia 1678, Cyprus

DOI:

https://doi.org/10.4208/jcm.1607-m2014-0187

Keywords:

Singularly perturbed transmission problem, Boundary layers, Interface layers, $hp$-FEM, Balanced norm, Exponential convergence.

Abstract

We perform the analysis of the $hp$ finite element approximation for the solution to singularly perturbed transmission problems, using Spectral Boundary Layer Meshes. In [12] it was shown that this method yields robust exponential convergence, as the degree $p$ of the approximating polynomials is increased, when the error is measured in the energy norm associated with the boundary value problem. In the present article we sharpen the result by showing that the $hp$-Finite Element Method (FEM) on Spectral Boundary Layer Meshes leads to robust exponential convergence in a stronger, more balanced norm. Several numerical results illustrating and extending the theory are also presented.

Downloads

Published

2018-08-22

Abstract View

  • 35829

Pdf View

  • 2868

Issue

Vol. 35 No. 2 (2017)

Section

Articles

How to Cite

An $hp$-FEM for Singularly Perturbed Transmission Problems. (2018). Journal of Computational Mathematics, 35(2), 152-168. https://doi.org/10.4208/jcm.1607-m2014-0187