The Fourier Singular Complement Method for the Poisson problem. Part II: axisymmetric domains

Patrick Ciarlet Jr., Beate Jung, Samir Kaddouri,
Simon Labrunie and Jun Zou
2006
Publication type:
Paper in peer-reviewed journals
Journal:
Numerische Mathematik, vol. 102, pp. 583-610
Abstract:
This paper is the second part of a threefold article, aimed at solving numerically the Poisson problem in three-dimensional prismatic or axisymmetric domains. In the first part of this series, the Fourier Singular Complement Method was introduced and analysed, in prismatic domains. In this second part, the FSCM is studied in axisymmetric domains with conical vertices, whereas, in the third part, implementation issues, numerical tests and comparisons with other methods are carried out. The method is based on a Fourier expansion in the direction parallel to the reentrant edges of the domain, and on an improved variant of the Singular Complement Method in the 2D section perpendicular to those edges. Neither refinements near the reentrant edges or vertices of the domain, nor cut-off functions are required in the computations to achieve an optimal convergence order in terms of the mesh size and the number of Fourier modes used.
BibTeX:
@article{Cia-Jun-Kad-Lab-Zou-2006,
    author={Patrick Ciarlet and Beate Jung and Samir Kaddouri and Simon 
           Labrunie and Jun Zou },
    title={The Fourier Singular Complement Method for the Poisson 
           problem. Part II: axisymmetric domains },
    journal={Numerische Mathematik },
    year={2006 },
    volume={102 },
    pages={583--610},
}