T-coercivity for scalar interface problems between dielectrics and metamaterials

Anne Sophie Bonnet Ben Dhia; Lucas Chesnel; Patrick Ciarlet

doi:10.1051/m2an/2012006

T-coercivity for scalar interface problems between dielectrics and metamaterials

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

Abstract

Some electromagnetic materials have, in a given frequency range, an effective dielectric permittivity and/or a magnetic permeability which are real-valued negative coefficients when dissipation is neglected. They are usually called metamaterials. We study a scalar transmission problem between a classical dielectric material and a metamaterial, set in an open, bounded subset of R^d, with d = 2,3. Our aim is to characterize occurences where the problem is well-posed within the Fredholm (or coercive + compact) framework. For that, we build some criteria, based on the geometry of the interface between the dielectric and the metamaterial. The proofs combine simple geometrical arguments with the approach of T-coercivity, introduced by the first and third authors and co-worker. Furthermore, the use of localization techniques allows us to derive well-posedness under conditions that involve the knowledge of the coefficients only near the interface. When the coefficients are piecewise constant, we establish the optimality of the criteria.

Original language	English
Pages (from-to)	1363-1387
Number of pages	25
Journal	Mathematical Modelling and Numerical Analysis
Volume	46
Issue number	6
DOIs	https://doi.org/10.1051/m2an/2012006
Publication status	Published - 1 Jan 2012

Keywords

Interface problem
Metamaterials
T-coercivity

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10.1051/m2an/2012006

Cite this

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title = "T-coercivity for scalar interface problems between dielectrics and metamaterials",

abstract = "Some electromagnetic materials have, in a given frequency range, an effective dielectric permittivity and/or a magnetic permeability which are real-valued negative coefficients when dissipation is neglected. They are usually called metamaterials. We study a scalar transmission problem between a classical dielectric material and a metamaterial, set in an open, bounded subset of Rd, with d = 2,3. Our aim is to characterize occurences where the problem is well-posed within the Fredholm (or coercive + compact) framework. For that, we build some criteria, based on the geometry of the interface between the dielectric and the metamaterial. The proofs combine simple geometrical arguments with the approach of T-coercivity, introduced by the first and third authors and co-worker. Furthermore, the use of localization techniques allows us to derive well-posedness under conditions that involve the knowledge of the coefficients only near the interface. When the coefficients are piecewise constant, we establish the optimality of the criteria.",

keywords = "Interface problem, Metamaterials, T-coercivity",

author = "Dhia, \{Anne Sophie Bonnet Ben\} and Lucas Chesnel and Patrick Ciarlet",

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T1 - T-coercivity for scalar interface problems between dielectrics and metamaterials

AU - Dhia, Anne Sophie Bonnet Ben

AU - Chesnel, Lucas

AU - Ciarlet, Patrick

PY - 2012/1/1

Y1 - 2012/1/1

N2 - Some electromagnetic materials have, in a given frequency range, an effective dielectric permittivity and/or a magnetic permeability which are real-valued negative coefficients when dissipation is neglected. They are usually called metamaterials. We study a scalar transmission problem between a classical dielectric material and a metamaterial, set in an open, bounded subset of Rd, with d = 2,3. Our aim is to characterize occurences where the problem is well-posed within the Fredholm (or coercive + compact) framework. For that, we build some criteria, based on the geometry of the interface between the dielectric and the metamaterial. The proofs combine simple geometrical arguments with the approach of T-coercivity, introduced by the first and third authors and co-worker. Furthermore, the use of localization techniques allows us to derive well-posedness under conditions that involve the knowledge of the coefficients only near the interface. When the coefficients are piecewise constant, we establish the optimality of the criteria.

AB - Some electromagnetic materials have, in a given frequency range, an effective dielectric permittivity and/or a magnetic permeability which are real-valued negative coefficients when dissipation is neglected. They are usually called metamaterials. We study a scalar transmission problem between a classical dielectric material and a metamaterial, set in an open, bounded subset of Rd, with d = 2,3. Our aim is to characterize occurences where the problem is well-posed within the Fredholm (or coercive + compact) framework. For that, we build some criteria, based on the geometry of the interface between the dielectric and the metamaterial. The proofs combine simple geometrical arguments with the approach of T-coercivity, introduced by the first and third authors and co-worker. Furthermore, the use of localization techniques allows us to derive well-posedness under conditions that involve the knowledge of the coefficients only near the interface. When the coefficients are piecewise constant, we establish the optimality of the criteria.

KW - Interface problem

KW - Metamaterials

KW - T-coercivity

U2 - 10.1051/m2an/2012006

DO - 10.1051/m2an/2012006

M3 - Article

AN - SCOPUS:84860507850

SN - 0764-583X

VL - 46

SP - 1363

EP - 1387

JO - Mathematical Modelling and Numerical Analysis

JF - Mathematical Modelling and Numerical Analysis

IS - 6

ER -

T-coercivity for scalar interface problems between dielectrics and metamaterials

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Keywords

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