针对电磁脉冲武器对导弹控制系统的严重威胁,重点阐述控制系统抗核电磁脉冲(HEMP)的主要途径。
With the severe threat of electromagnetic pulse weapon to ballistic missile control systems, the primary ways how control system counteract HEMP are discussed.
使用电磁脉冲武器的难点是如何确定合适的能量级别以达到所期望的效果,这就要求对目标设备和环境(墙,建筑物)有详细的了解。
A difficulty is determining the appropriate level of energy to achieve the desired effects. This will require detailed knowledge of the target equipment and the environment (walls, buildings).
除了其他影响,在地球大气层中或之上引爆的核武器会产生一种电磁脉冲(EMP),这是一种高强度的电场。
In addition to other effects, a nuclear weapon detonated in or above the earth's atmosphere can create an electromagnetic pulse (EMP), a high-density electrical field.
单个核武器高空引爆所产生的电磁脉冲能对一千英里以外的军事系统造成威胁。
The electromagnetic pulse generated by the detonation of a single nuclear weapon at high altitudes can be a threat to military systems located as much as a thousand miles away.
强电磁脉冲对武器装备电子系统具有很强的干扰和破坏作用。
Intensive electromagnetism pulse (EMP) can disturb and destroy the electronic system of the weapon equipments seriously.
俄罗斯在苏联时期就开始电磁脉冲的研究,其设于乌克兰的亚德·曼斯特核武研究中心,专门负责高能微波脉冲武器的研发工作。
Russia started their studies of the microwave weapon at Soviet epoch. The Aldermaston Nuclear weapon Center in Ukraine, specialize in high-power microwave weapon.
电磁脉冲(EMP)和高功率微波(HPM)武器能以其瞬间功率骤增而对电子设备产生巨大的破坏力。
Electromagnetic Pulse (EMP) and High Powered Microwave (HMP) Weapons offer a significant capability against electronic equipment susceptible to damage by transient power surges.
电磁脉冲(EMP)和高功率微波(HPM)武器能以其瞬间功率骤增而对电子设备产生巨大的破坏力。
Electromagnetic Pulse (EMP) and High Powered Microwave (HMP) Weapons offer a significant capability against electronic equipment susceptible to damage by transient power surges.
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