相对运动等离子体平板与电磁波相互作用研究

高超声速飞行器在飞行过程中，由于高温高压的作用，会在飞行器表面形成一层等离子体鞘层，飞行器及其等离子体鞘层相对于地面测控中心做高速相对运动，对目标物电磁回波会带来严重影响.此外，等离子体鞘层的时变特性，也会对目标物雷达回波进行调制，使测控中心难以识别、跟踪目标.本文利用Lorentz-FDTD方法研究了相对运动等离子体鞘层与电磁波之间的相互作用，并分析了等离子体鞘层的相对运动特性和时变特性对电磁波造成的影响，发现运动的时变等离子体除了对电磁波造成多普勒频移外，还会对入射波频谱进行调制.

Interaction between relative moving plasma plate and electromagnetic wave

During the flight of hypersonic aircraft, due to the impact of high temperature and high pressure, a layer of plasma sheath is formed on the surface of the aircraft. With the aircraft and its plasma sheath motion at high speed relative to the ground measurement and control center, a serious impact on the electromagnetic echo of the target will be caused. In addition, the time-varying characteristics of plasma sheath also modulate the radar echo of the target, making it difficult for the center to identify and track the target. In this paper, Lorentz-FDTD method is used to study the interaction between the relatively moving plasma sheath and the electromagnetic wave, and the influence of the relative motion and time-varying characteristics of the plasma sheath on the electromagnetic wave is analyzed. It is found that the moving time-varying plasma not only causes Doppler shift to the electromagnetic wave but also modulates the spectrum of incident wave.