中性气体注入电离层激发低混杂波演化过程研究OA
Study on the evolutionary process of lower-hybrid wave excited by neutral gas injection into the ionosphere
本文聚焦于中性气体注入电离层激发低混杂波的二维时空演化特征研究.以注入水汽为例,在建立理论模型并推导了低混杂波增长率的理论表达式的基础上,开展了低混杂波在电离层中激发后传播方向、幅度等参数随时间和空间的二维演化过程研究.结果表明,高速注入的水汽与电离层氧离子发生电荷交换形成的离子环束分布是激发低混杂波的主要因素,其增长率显著受水汽的扩散速率、背景等离子体密度及释放高度等的影响.研究结果揭示了电离层中低混杂波激发和传播的时空特征,为理解空间等离子体波粒相互作用、能量输运过程以及空间人工扰动效应评估提供了理论依据.
This paper focuses on the study of the two-dimensional spatiotemporal evolution characteristics of lower hybrid wave excitation by neutral gas injection into the ionosphere.Using water vapor injection as an example,a theoretical model is established,and the theoretical expression for the growth rate of the lower hybrid wave is derived.Based on this,the two-dimensional evolution of parameters such as propagation direction and amplitude of the lower hybrid wave in the ionosphere after excitation is studied as a function of time and space.The results show that the ion ring beam distribution formed by the charge exchange between the high-speed injected water vapor and the ionospheric oxygen ions is the primary factor in the excitation of the lower hybrid wave.Its growth rate is significantly influenced by factors such as the diffusion rate of the water vapor,the background plasma density,and the release altitude.The research findings reveal the spatiotemporal characteristics of lower hybrid wave excitation and propagation in the ionosphere,providing a theoretical basis for understanding space plasma wave-particle interactions,energy transport processes,and the assessment of space artificial perturbation effects.
李敬敬;李辉;鲁智健;孙树计
中国电波传播研究所,青岛 266107中国电波传播研究所,青岛 266107中国电波传播研究所,青岛 266107||哈尔滨工业大学物理学院,哈尔滨 150001中国电波传播研究所,青岛 266107
天文与地球科学
电离层中性气体注入低混杂波增长率离子环束
ionosphereneutral gas injectionlower hybrid wavegrowth rateion ring beam
《电波科学学报》 2026 (3)
556-561,6
中国电波传播研究所稳定支持科研经费(A132312217)Stabilized Support Research Funding from China Research Institute of Radiowave Propagation(A132312217)
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