Bifurcation analysis of ion-acoustic superperiodic waves in ultra-relativistic dense plasma

S. El-Labany, M. M. Selim, Enas L. Habbak, E. F. El-Shamy
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Abstract

Abstract Bifurcation analysis of ion-acoustic solitary, periodic and superperiodic waves in ultra-relativistic quantum degenerate electron-positron-ion plasma is investigated based on Sagdeev’s pseudopotential approach. The phase plane plots for the superperiodic, periodic, and homoclinic trajectories for the dynamical system are developed. Rarefactive and compressive solitary waves are demonstrated to exist. The influence of plasma parameters on the characteristic properties of the periodic and superperiodic waves is studied. Also, the effect of different plasma parameters on the Sagdeev pseudopotential profile is investigated. The results of this study may be used to shed light on the fundamental properties of nonlinear waves in dense objects (e.g., white dwarfs and neutron stars). These results also may be beneficial in describing laboratory plasma (e.g., interaction experiments of intense laser-solid matter), and plasma applications such as microelectronic devices.
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超相对论致密等离子体中离子声超周期波的分岔分析
基于Sagdeev伪势方法研究了超相对论量子简并电子-正电子-离子等离子体中离子-声孤立波、周期波和超周期波的分岔分析。给出了动力系统超周期、周期和同斜轨迹的相平面图。证明了稀薄和压缩孤立波的存在。研究了等离子体参数对周期波和超周期波特性的影响。研究了不同等离子体参数对Sagdeev赝势分布的影响。这项研究的结果可以用来阐明稠密物体(如白矮星和中子星)中非线性波的基本性质。这些结果也可能有助于描述实验室等离子体(例如,强激光与固体物质的相互作用实验)和等离子体应用,如微电子器件。
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