Two-stream instability of relativistic electron beam in magnetized plasma waveguide: nonlinear logarithmic electrodynamics model

Understanding the interplay between electromagnetic phenomena and plasma instabilities is paramount in various astrophysical and laboratory contexts. This study delves into the intricate dynamics of a relativistic electron beam propagating through a magnetized plasma waveguide, employing a nonlinear...

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Bibliographic Details
Published in:Indian journal of physics 2024-12, Vol.98 (14), p.4973-4979
Main Authors: Ghasemi, Shahram, Hasanbeigi, Ali, Mehdian, Hassan, Hajisharifi, Kamal
Format: Article
Language:English
Subjects:
Electrodynamics
Electromagnetic fields
Impact analysis
Laboratories
Logarithms
Magnetohydrodynamic stability
Nonlinear dynamics
Numerical analysis
Perturbation theory
Relativistic effects
Relativistic electron beams
Relativistic theory
Wave propagation
Waveguides
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Summary:Understanding the interplay between electromagnetic phenomena and plasma instabilities is paramount in various astrophysical and laboratory contexts. This study delves into the intricate dynamics of a relativistic electron beam propagating through a magnetized plasma waveguide, employing a nonlinear logarithmic electrodynamics model. Leveraging the power of linear perturbation theory, we derive a comprehensive dispersion relation, integrating fluid equations and nonlinear electrodynamics field equations. Employing numerical analysis, we scrutinize the growth rate of the two-stream instability within the plasma waveguide, revealing the profound impact of nonlinear electrodynamics effects. Notably, our investigation unveils how these effects significantly influence instability characteristics, particularly under varying magnetic field strengths. This research sheds new light on the complex interplay between electromagnetic fields and plasma instabilities, offering fresh insights into astrophysical and laboratory scenarios where such phenomena are prevalent.
ISSN:0973-1458
0974-9845
DOI:10.1007/s12648-024-03225-0