高速目标表面感应电流的相对论分析

H. Ochoa, R. K. Nakka
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引用次数: 0

摘要

雷达是一种基于反射来探测和定位物体的电磁系统。它的工作原理是向太空辐射能量,探测物体或目标反射的回波信号。这项工作分析了当物体高速运动时,天线辐射的电磁波如何在目标上感应电流。假设目标是高速运动的完美电导体。这项工作分析了这些电流的振幅、频率和持续时间如何受到目标速度的影响。然后可以使用矢量势计算传输的电磁波波形,并通过使用洛伦兹变换,将电磁波形从静止参考系转换为运动参考系。利用变换后的波形和等效原理,可以对物体上的感应电流进行建模。由于感应电流的作用,物体辐射出一种电磁波形。利用矢量势计算辐射波形,再一次利用洛伦兹变换将反射波形从运动参考系转换为静止参考系。最后利用等效原理计算了反射电磁波在天线中产生的电流。分析了天线上感应电流随目标速度的变化关系。
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Analysis of induced surface currents on high velocity target using a relativistic approach
Radar is an electromagnetic system used for the detection and location of objects based on reflection. It operates by radiating energy into space and detecting the echo signal reflected from an object or target. This work analyzes how currents are induced on targets by the electromagnetic waveforms radiated by an antenna when the object is moving at high velocity. It is assumed that the target is a perfect electric conductor moving at high velocity. This work analyzes how the amplitude, the frequency and the duration of these currents are affected by the target velocity. The transmitted electromagnetic waveforms can then be calculated using vector potentials and by using the Lorentz transformation, the electromagnetic waveform is transformed from the stationary reference frame to a moving reference frame. Currents induced on the object can be modeled by using the transformed waveform and the equivalence principle. The object radiates an electromagnetic waveform as a consequence of the induced currents. The radiated waveform is calculated using the vector potentials and once more the reflected waveform is transformed from the moving reference frame to the stationary reference frame using the Lorentz transformation. Finally the equivalence principle was used to calculate currents induced in the antenna by the reflected electromagnetic waveforms. The relationship of the induced current on the antenna as a function of the target velocity is analyzed.
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