Ahmed Redha Benrekia, Rachid Fermous, Ziane Kchidi, Rabia Amour
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引用次数: 0
Abstract
The effects of gravitational force on the behavior of collisionless shock waves in a nonthermal dusty plasma with fluctuating charge have been examined. The distribution function describing a cold beam of dust grains under the influence of gravitational effects has been reanalyzed, resulting in the derivation of a new density expression. Numerical integration of the Poisson equation, coupled with the dust grain charge equation, reveals that the electrostatic potential associated with DA shock waves forms an asymmetric, oscillatory structure when gravitational effects are considered. Specifically, we have found that due to gravitational effects, the electrostatic potential inherent to the DA shock waves undergoes a jump and increases linearly and the amplitude of each oscillation decreases as the nonthermality of the electrons becomes more important. Furthermore, for medium-sized grains, the interplay between electrostatic potential and gravitational forces results in a shift of the multilayer structure toward higher potential values, along with an increased number of oscillations. This effect becomes even more pronounced for larger grains. The results of our investigation may contribute to a deeper understanding of shock structures in inhomogeneous media obtained in a controlled laboratory environment and may also have practical applications in interpreting similar phenomena in astrophysical contexts.
研究了引力对电荷波动的非热尘埃等离子体中无碰撞冲击波行为的影响。重新分析了在引力作用下描述尘粒冷束的分布函数,从而推导出新的密度表达式。泊松方程的数值积分与尘粒电荷方程相结合,揭示出在考虑引力效应时,与 DA 冲击波相关的静电势形成了一种不对称的振荡结构。具体来说,我们发现,由于引力效应,DA 冲击波固有的静电势会发生跃迁,并呈线性增长,而且随着电子的非热性变得越来越重要,每次振荡的振幅都会减小。此外,对于中等大小的晶粒,静电势和引力之间的相互作用导致多层结构向更高的电势值移动,同时振荡次数也增加了。对于较大的晶粒,这种效应会更加明显。我们的研究结果可能有助于加深对在受控实验室环境中获得的非均质介质冲击结构的理解,也可能在解释天体物理环境中的类似现象时具有实际应用价值。
期刊介绍:
The European Physical Journal D (EPJ D) presents new and original research results in:
Atomic Physics;
Molecular Physics and Chemical Physics;
Atomic and Molecular Collisions;
Clusters and Nanostructures;
Plasma Physics;
Laser Cooling and Quantum Gas;
Nonlinear Dynamics;
Optical Physics;
Quantum Optics and Quantum Information;
Ultraintense and Ultrashort Laser Fields.
The range of topics covered in these areas is extensive, from Molecular Interaction and Reactivity to Spectroscopy and Thermodynamics of Clusters, from Atomic Optics to Bose-Einstein Condensation to Femtochemistry.