多离子尘埃等离子体中的平面和非平面孤子

IF 0.6 4区 工程技术 Q4 Engineering Nuclear Engineering International Pub Date : 2019-07-25 DOI:10.18034/ei.v7i2.474
F. Deeba, K. Islam, Abdullah Al Mamun
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引用次数: 0

摘要

本文对由惯性正负离子和任意带电静止尘埃组成的多离子尘埃等离子体系统中的非线性尘埃-离子-声(DIA)孤立波进行了严密的理论研究。为了观察尘埃极性对DIA SWs的影响,将尘埃颗粒视为任意(正电或负电)带电。三种不同的方法(K-dV (Korteweg-de Vries), mK-dV(混合K-dV)和Gardner)被用来分析整个体系。这三种方法都采用了约化摄动法。利用约化微扰法,我们首先推导出K-dV方程,该方程使我们能够分析两种类型的孤子(亮孤子和暗孤子),但是,在一个非常有限的区域。在此基础上推导出mK-dV方程,该方程可以分析大范围内的亮孤子,但不能显示暗孤子。最后,我们用同样的方法推导出了加德纳方程,通过它我们可以分析大范围内的亮孤子和暗孤子。我们还利用修正的Gardner (mG)方程观察了非平面几何形状和时间演化对SWs的影响。研究发现,正孤子和负孤子都与离子的离子数密度、尘埃极性、温度和时间尺度有关。研究还表明,非平面(圆柱形和球形)DIA-GSs的性能与一维平面DIA-GSs的性能有显著差异。
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Planar and Nonplanar Solitons in Multi-Ion Dusty Plasma
A rigorous theoretical investigation has been made on nonlinear dust-ion-acoustic (DIA) solitary waves (SWs) in a multi-ion dusty plasma system, consisting of inertial positive and negative ions, and arbitrary charged stationary dust. The dust particles have been considered as arbitrarily (either positively or negatively) charged in order to observe the effects of dust polarity on the DIA SWs. Three different approaches (K-dV (Korteweg-de Vries), mK-dV (mixed K-dV), and Gardner) have been employed to analysis the entire regime. The reductive perturbation method has been employed in all these three approaches. Using reductive perturbation method, we first derive K-dV equation which let us to analyze both types (bright and dark) of solitons, but, in a very limited region. After that mK-dV equation has been derived which let us analyze bright soliton for a large region, but cannot show the dark soliton. Finally, we have derived the Gardner equation employing the same method, through which we were able to analyze both the bright and dark solitons for a large region. We also employed the modified Gardner (mG) equation to observe the effects of nonplanar geometry as well as time evolution of SWs. It has been found that both the positive and negative solitons depend on the ion number density of the ions, dust polarity, temperature, as well as time scale. It is also shown that the properties of the nonplanar (cylindrical and spherical) DIA-GSs are significantly different from those of the one dimensional planar ones.
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Nuclear Engineering International
Nuclear Engineering International 工程技术-核科学技术
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