Long time behaviour of the solution of Maxwell's equations in dissipative generalized Lorentz materials (II) A modal approach

Maxence Cassier; Patrick Joly; Luis Alejandro Rosas Martínez

doi:10.1016/j.matpur.2025.103720

Long time behaviour of the solution of Maxwell's equations in dissipative generalized Lorentz materials (II) A modal approach

Maxence Cassier, Patrick Joly, Luis Alejandro Rosas Martínez

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

Abstract

This work concerns the analysis of electromagnetic dispersive media modelled by generalized Lorentz models. More precisely, this paper is the second of two articles dedicated to the long time behaviour of solutions of Maxwell's equations in dissipative Lorentz media, via the decay rate of the electromagnetic energy for the corresponding Cauchy problem. In opposition to the frequency dependent Lyapunov functions approach used in [4], we develop a method based on the spectral analysis of the underlying non selfadjoint operator of the model. Although more involved, this approach is closer to physics, as it uses the dispersion relation of the model, and has the advantage to provide more precise and more optimal results, leading to distinguish the notion of weak and strong dissipation.

Original language	English
Article number	103720
Journal	Journal des Mathematiques Pures et Appliquees
Volume	201
DOIs	https://doi.org/10.1016/j.matpur.2025.103720
Publication status	Published - 1 Sept 2025

Keywords

Dissipative media
Energy decay rate
Maxwell's equations in generalized Lorentz models
Spectral theory

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10.1016/j.matpur.2025.103720

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title = "Long time behaviour of the solution of Maxwell's equations in dissipative generalized Lorentz materials (II) A modal approach",

abstract = "This work concerns the analysis of electromagnetic dispersive media modelled by generalized Lorentz models. More precisely, this paper is the second of two articles dedicated to the long time behaviour of solutions of Maxwell's equations in dissipative Lorentz media, via the decay rate of the electromagnetic energy for the corresponding Cauchy problem. In opposition to the frequency dependent Lyapunov functions approach used in [4], we develop a method based on the spectral analysis of the underlying non selfadjoint operator of the model. Although more involved, this approach is closer to physics, as it uses the dispersion relation of the model, and has the advantage to provide more precise and more optimal results, leading to distinguish the notion of weak and strong dissipation.",

keywords = "Dissipative media, Energy decay rate, Maxwell's equations in generalized Lorentz models, Spectral theory",

author = "Maxence Cassier and Patrick Joly and \{Rosas Mart{\'i}nez\}, \{Luis Alejandro\}",

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AU - Cassier, Maxence

AU - Joly, Patrick

AU - Rosas Martínez, Luis Alejandro

PY - 2025/9/1

Y1 - 2025/9/1

N2 - This work concerns the analysis of electromagnetic dispersive media modelled by generalized Lorentz models. More precisely, this paper is the second of two articles dedicated to the long time behaviour of solutions of Maxwell's equations in dissipative Lorentz media, via the decay rate of the electromagnetic energy for the corresponding Cauchy problem. In opposition to the frequency dependent Lyapunov functions approach used in [4], we develop a method based on the spectral analysis of the underlying non selfadjoint operator of the model. Although more involved, this approach is closer to physics, as it uses the dispersion relation of the model, and has the advantage to provide more precise and more optimal results, leading to distinguish the notion of weak and strong dissipation.

AB - This work concerns the analysis of electromagnetic dispersive media modelled by generalized Lorentz models. More precisely, this paper is the second of two articles dedicated to the long time behaviour of solutions of Maxwell's equations in dissipative Lorentz media, via the decay rate of the electromagnetic energy for the corresponding Cauchy problem. In opposition to the frequency dependent Lyapunov functions approach used in [4], we develop a method based on the spectral analysis of the underlying non selfadjoint operator of the model. Although more involved, this approach is closer to physics, as it uses the dispersion relation of the model, and has the advantage to provide more precise and more optimal results, leading to distinguish the notion of weak and strong dissipation.

KW - Dissipative media

KW - Energy decay rate

KW - Maxwell's equations in generalized Lorentz models

KW - Spectral theory

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DO - 10.1016/j.matpur.2025.103720

M3 - Article

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SN - 0021-7824

VL - 201

JO - Journal des Mathematiques Pures et Appliquees

JF - Journal des Mathematiques Pures et Appliquees

M1 - 103720

ER -

Long time behaviour of the solution of Maxwell's equations in dissipative generalized Lorentz materials (II) A modal approach

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