Linear Landau Damping for the Vlasov-Maxwell System in

Daniel Han-Kwan; Toan T. Nguyen; Frédéric Rousset

doi:10.1007/s40818-025-00217-z

Linear Landau Damping for the Vlasov-Maxwell System in

Daniel Han-Kwan, Toan T. Nguyen, Frédéric Rousset

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

Abstract

In this work, we consider the relativistic Vlasov-Maxwell system, linearized around a spatially homogeneous equilibrium, set in the whole space. The equilibrium is assumed to belong to a class of radial, smooth, rapidly decaying functions. Under appropriate conditions on the initial data, we prove algebraic decay (of dispersive nature) for the electromagnetic field. For the electric scalar potential, the leading behavior is driven by a dispersive wave packet with non-degenerate phase and compactly supported amplitude, while for the magnetic vector potential, it is driven by a wave packet whose phase behaves globally like the one of Klein-Gordon and the amplitude has unbounded support.

Original language	English
Article number	26
Journal	Annals of PDE
Volume	11
Issue number	2
DOIs	https://doi.org/10.1007/s40818-025-00217-z
Publication status	Published - 1 Dec 2025
Externally published	Yes

Keywords

Landau damping
Linear stability
Plasma oscillations
Vlasov-Maxwell

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10.1007/s40818-025-00217-z

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title = "Linear Landau Damping for the Vlasov-Maxwell System in",

abstract = "In this work, we consider the relativistic Vlasov-Maxwell system, linearized around a spatially homogeneous equilibrium, set in the whole space. The equilibrium is assumed to belong to a class of radial, smooth, rapidly decaying functions. Under appropriate conditions on the initial data, we prove algebraic decay (of dispersive nature) for the electromagnetic field. For the electric scalar potential, the leading behavior is driven by a dispersive wave packet with non-degenerate phase and compactly supported amplitude, while for the magnetic vector potential, it is driven by a wave packet whose phase behaves globally like the one of Klein-Gordon and the amplitude has unbounded support.",

keywords = "Landau damping, Linear stability, Plasma oscillations, Vlasov-Maxwell",

author = "Daniel Han-Kwan and Nguyen, \{Toan T.\} and Fr{\'e}d{\'e}ric Rousset",

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AU - Han-Kwan, Daniel

AU - Nguyen, Toan T.

AU - Rousset, Frédéric

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/12/1

Y1 - 2025/12/1

N2 - In this work, we consider the relativistic Vlasov-Maxwell system, linearized around a spatially homogeneous equilibrium, set in the whole space. The equilibrium is assumed to belong to a class of radial, smooth, rapidly decaying functions. Under appropriate conditions on the initial data, we prove algebraic decay (of dispersive nature) for the electromagnetic field. For the electric scalar potential, the leading behavior is driven by a dispersive wave packet with non-degenerate phase and compactly supported amplitude, while for the magnetic vector potential, it is driven by a wave packet whose phase behaves globally like the one of Klein-Gordon and the amplitude has unbounded support.

AB - In this work, we consider the relativistic Vlasov-Maxwell system, linearized around a spatially homogeneous equilibrium, set in the whole space. The equilibrium is assumed to belong to a class of radial, smooth, rapidly decaying functions. Under appropriate conditions on the initial data, we prove algebraic decay (of dispersive nature) for the electromagnetic field. For the electric scalar potential, the leading behavior is driven by a dispersive wave packet with non-degenerate phase and compactly supported amplitude, while for the magnetic vector potential, it is driven by a wave packet whose phase behaves globally like the one of Klein-Gordon and the amplitude has unbounded support.

KW - Landau damping

KW - Linear stability

KW - Plasma oscillations

KW - Vlasov-Maxwell

UR - https://www.scopus.com/pages/publications/105017148189

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DO - 10.1007/s40818-025-00217-z

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AN - SCOPUS:105017148189

SN - 2524-5317

VL - 11

JO - Annals of PDE

JF - Annals of PDE

IS - 2

M1 - 26

ER -

Linear Landau Damping for the Vlasov-Maxwell System in

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