短脉冲激光作用下非均匀量子电子-正电子磁等离子体的电磁振荡及其不稳定性研究

Q4 Physics and Astronomy
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引用次数: 0

摘要

在本文中,我们研究了量子非均匀电子-正电子磁质与短脉冲激光在低频近似下,在两个平行和垂直方向上的电磁振荡。根据我们的研究,平行方向的波受到有质动势的强烈影响。量子修正导致这个力的大小改变,相应地,导致波的相速度和群速度的大小,以及它们的不稳定性改变。在平行方向上,数密度和流速度的初始量直接影响波,而磁场通过质动势间接影响波。同样,激光脉冲的吸收导致等离子体波在激光方向上增长,而在相反方向上衰减。然而,激光的放大使波在激光方向上受潮,并在相反的方向上增长。在垂直方向上,波除数量外,还受数密度、流速度和外磁初始量的横向梯度的影响,而这些梯度对平行波没有影响。同样,我们研究了不同横向梯度值下波的行为。所以我们指出,每一个梯度的存在都可以完全改变波的行为。此外,研究表明,初始密度或流速度的横向梯度的存在不能产生垂直方向的电磁波,而磁场的横向梯度可以引发垂直方向的电磁波。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of electromagnetic oscillations and their instabilities in a nonuniform quantum electron-positron magnetoplasma interacting with a short pulse laser
In this article, we investigated electromagnetic oscillations in a quantum nonuniform electron-positron magnetoplasm interacting with a short pulse laser, in low frequency approximation, in two parallel and perpendicular directions. According to our investigations, the waves in the parallel direction are affected by ponderomotive force, vigorously. Quantum corrections cause the magnitude of this force to change and accordingly, cause the magnitude of phase and group velocities of the waves, as well as, their instability to change. In the parallel direction, initial quantities of number density and streaming velocity affect the waves directly, but the magnetic field affects these waves through the ponderomotive force, indirectly. As well, absorption of the laser pulse causes the plasma waves to grow in the laser direction and damp in the opposite direction. While, the amplification of the laser causes the waves to damp in the laser direction and grow in the opposite direction. In the perpendicular direction, the waves are influenced by the transverse gradient of initial quantities of number density, streaming velocity and external magnetic, in addition to their amounts, while these gradients don't have any effect on the parallel waves. Likewise, we investigate the behavior of the waves for different values of the transverse gradients. So that we indicate that the presence of each of gradients can completely change the behavior of the waves. As well, the investigations indicated that the presence of the transverse gradient of the initial density or streaming velocity couldn’t create the electromagnetic waves in the perpendicular direction but, the transverse gradient of the magnetic field could initiate these waves.
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来源期刊
Iranian Journal of Physics Research
Iranian Journal of Physics Research Physics and Astronomy-Physics and Astronomy (all)
CiteScore
0.20
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0.00%
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审稿时长
30 weeks
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