Numerical analysis of the mixed finite element method for the neutron diffusion eigenproblem with heterogeneous coefficients

P. Ciarlet; L. Giret; E. Jamelot; F. D. Kpadonou

doi:10.1051/m2an/2018011

Numerical analysis of the mixed finite element method for the neutron diffusion eigenproblem with heterogeneous coefficients

P. Ciarlet, L. Giret, E. Jamelot, F. D. Kpadonou

Research output: Contribution to journal › Article › peer-review

Abstract

We study first the convergence of the finite element approximation of the mixed diffusion equations with a source term, in the case where the solution is of low regularity. Such a situation commonly arises in the presence of three or more intersecting material components with different characteristics. Then we focus on the approximation of the associated eigenvalue problem. We prove spectral correctness for this problem in the mixed setting. These studies are carried out without, and then with a domain decomposition method. The domain decomposition method can be non-matching in the sense that the traces of the finite element spaces may not fit at the interface between subdomains. Finally, numerical experiments illustrate the accuracy of the method.

Original language	English
Article number	52
Pages (from-to)	2003-2035
Number of pages	33
Journal	Mathematical Modelling and Numerical Analysis
Volume	52
Issue number	5
DOIs	https://doi.org/10.1051/m2an/2018011
Publication status	Published - 1 Sept 2018

Keywords

Diffusion equation
Domain decomposition methods
Eigenproblem
Low-regularity solution
Mixed formulation

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10.1051/m2an/2018011

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title = "Numerical analysis of the mixed finite element method for the neutron diffusion eigenproblem with heterogeneous coefficients",

abstract = "We study first the convergence of the finite element approximation of the mixed diffusion equations with a source term, in the case where the solution is of low regularity. Such a situation commonly arises in the presence of three or more intersecting material components with different characteristics. Then we focus on the approximation of the associated eigenvalue problem. We prove spectral correctness for this problem in the mixed setting. These studies are carried out without, and then with a domain decomposition method. The domain decomposition method can be non-matching in the sense that the traces of the finite element spaces may not fit at the interface between subdomains. Finally, numerical experiments illustrate the accuracy of the method.",

keywords = "Diffusion equation, Domain decomposition methods, Eigenproblem, Low-regularity solution, Mixed formulation",

author = "P. Ciarlet and L. Giret and E. Jamelot and Kpadonou, \{F. D.\}",

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T1 - Numerical analysis of the mixed finite element method for the neutron diffusion eigenproblem with heterogeneous coefficients

AU - Ciarlet, P.

AU - Giret, L.

AU - Jamelot, E.

AU - Kpadonou, F. D.

N1 - Publisher Copyright: © EDP Sciences, SMAI 2018.

PY - 2018/9/1

Y1 - 2018/9/1

N2 - We study first the convergence of the finite element approximation of the mixed diffusion equations with a source term, in the case where the solution is of low regularity. Such a situation commonly arises in the presence of three or more intersecting material components with different characteristics. Then we focus on the approximation of the associated eigenvalue problem. We prove spectral correctness for this problem in the mixed setting. These studies are carried out without, and then with a domain decomposition method. The domain decomposition method can be non-matching in the sense that the traces of the finite element spaces may not fit at the interface between subdomains. Finally, numerical experiments illustrate the accuracy of the method.

AB - We study first the convergence of the finite element approximation of the mixed diffusion equations with a source term, in the case where the solution is of low regularity. Such a situation commonly arises in the presence of three or more intersecting material components with different characteristics. Then we focus on the approximation of the associated eigenvalue problem. We prove spectral correctness for this problem in the mixed setting. These studies are carried out without, and then with a domain decomposition method. The domain decomposition method can be non-matching in the sense that the traces of the finite element spaces may not fit at the interface between subdomains. Finally, numerical experiments illustrate the accuracy of the method.

KW - Diffusion equation

KW - Domain decomposition methods

KW - Eigenproblem

KW - Low-regularity solution

KW - Mixed formulation

U2 - 10.1051/m2an/2018011

DO - 10.1051/m2an/2018011

M3 - Article

AN - SCOPUS:85058865252

SN - 0764-583X

VL - 52

SP - 2003

EP - 2035

JO - Mathematical Modelling and Numerical Analysis

JF - Mathematical Modelling and Numerical Analysis

IS - 5

M1 - 52

ER -

Numerical analysis of the mixed finite element method for the neutron diffusion eigenproblem with heterogeneous coefficients

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Keywords

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