电离层扰动中Langmuir参数不稳定性的二维数值研究

T. Feng, Moran Liu, Chen Zhou
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摘要

参量衰减不稳定性在高能高频电磁波与电离层等离子体的相互作用中起着重要作用。本文采用广义Zakharov方法对等离子体的常规动力学方程进行了适当的处理,建立了具有接近真实电离层背景的PDI二维数值模拟模型和无线电波传播模型。仿真结果发现,在毫秒级的时间尺度内,高功率高频电磁波能在普通波(o型)反射点附近激发出朗缪尔波和离子声波两种静电模式。密度扰动幅度呈指数增长,显著影响与“低频”密度背景相关的等离子体频率。这些过程之后还会出现等离子体空腔结构和捕获朗缪尔波。最后,o型加热导致强烈的局部湍流。本文还给出了强HF波加热在o模反射高度下激发Langmuir参数不稳定性(LPI)的模拟结果。本文的研究有助于对参数衰减不稳定性(PDI)的物理机制形成深刻印象。这也有助于研究大功率高频电磁波与电离层等离子体的非线性相互作用。
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A 2D Numerical Study of the Langmuir Parametric Instability in the Ionospheric Modification
Parametric Decay Instability (PDI) plays an important role in the interaction of the high-power HF EM waves with ionosphere plasma. In this study, we have constructed a 2D numerical simulation model for studying PDI with a nearly realistic ionosphere background and a radio wave propagation model by taking a proper processing for the routine dynamic equations of plasma with generalized Zakharov method. The simulation results found that high-power HF EM waves could excite two electrostatic modes of a Langmuir wave and an ion acoustic wave near the reflection point of the ordinary wave (O-mode) within a timescale order of millisecond. The amplitude of density perturbation grows exponentially and significantly influencing the plasma frequency related to ‘low frequency’ density background. These processes are also followed by plasma caviton structures and trapped Langmuir waves. Finally, the O-mode heating leads to an intense localized turbulence. This paper also presents the simulation results of Langmuir parametric instability (LPI) excited by powerful HF wave heating at the O-mode reflection height. The study of this article contributes to formation of a deep impression for the physical mechanism of the Parametric Decay Instability (PDI). It is also helpful to research on the nonlinear interaction between the high-power HF EM waves and ionosphere plasma.
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