Guaranteed lower bounds on eigenvalues of elliptic operators with a hybrid high-order method

Carsten Carstensen; Alexandre Ern; Sophie Puttkammer

doi:10.1007/s00211-021-01228-1

Guaranteed lower bounds on eigenvalues of elliptic operators with a hybrid high-order method

Carsten Carstensen
, Alexandre Ern
, Sophie Puttkammer

Humboldt-Universität zu Berlin

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

Abstract

This paper introduces a novel hybrid high-order (HHO) method to approximate the eigenvalues of a symmetric compact differential operator. The HHO method combines two gradient reconstruction operators by means of a parameter 0<α<1 and introduces a novel cell-based stabilization operator weighted by a parameter 0 < β< ∞. Sufficient conditions on the parameters α and β are identified leading to a guaranteed lower bound property for the discrete eigenvalues. Moreover optimal convergence rates are established. Numerical studies for the Dirichlet eigenvalue problem of the Laplacian provide evidence for the superiority of the new lower eigenvalue bounds compared to previously available bounds.

Original language	English
Pages (from-to)	273-304
Number of pages	32
Journal	Numerische Mathematik
Volume	149
Issue number	2
DOIs	https://doi.org/10.1007/s00211-021-01228-1
Publication status	Published - 1 Oct 2021

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abstract = "This paper introduces a novel hybrid high-order (HHO) method to approximate the eigenvalues of a symmetric compact differential operator. The HHO method combines two gradient reconstruction operators by means of a parameter 0<α<1 and introduces a novel cell-based stabilization operator weighted by a parameter 0 < β< ∞. Sufficient conditions on the parameters α and β are identified leading to a guaranteed lower bound property for the discrete eigenvalues. Moreover optimal convergence rates are established. Numerical studies for the Dirichlet eigenvalue problem of the Laplacian provide evidence for the superiority of the new lower eigenvalue bounds compared to previously available bounds.",

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AB - This paper introduces a novel hybrid high-order (HHO) method to approximate the eigenvalues of a symmetric compact differential operator. The HHO method combines two gradient reconstruction operators by means of a parameter 0<α<1 and introduces a novel cell-based stabilization operator weighted by a parameter 0 < β< ∞. Sufficient conditions on the parameters α and β are identified leading to a guaranteed lower bound property for the discrete eigenvalues. Moreover optimal convergence rates are established. Numerical studies for the Dirichlet eigenvalue problem of the Laplacian provide evidence for the superiority of the new lower eigenvalue bounds compared to previously available bounds.

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Guaranteed lower bounds on eigenvalues of elliptic operators with a hybrid high-order method

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