这篇论文指出对高空核武器爆炸产生的电磁脉冲(EMP)的一个微观研究途径。这个途径包括对武器爆炸的γ辐射在大气上层产生的一个相对论的、康普顿电子的依从于时间的电磁场的详细计算。把所有这样产生出来的电子的效应叠加起来就得到净效应或观察者测出的电磁脉冲(EMP)。推导出来的基本理论忽略了周围空气中形成的导电率。这对γ辐射当量小于一千吨的武器来讲,是一个比较好的假定。文内还有一小节指明导电媒介中EMP的必要公式推导。 This paper points out a microcosmic approach to electromagnetic pulse (EMP) from the explosion of a high-altitude nuclear weapon. This approach includes a detailed calculation of the Compton-dependent time-dependent electromagnetic field of a relativistic, upper-atmosphere, gamma-radiation from an explosive weapon. By superimposing the effects of all such generated electrons, a net effect or electromagnetic pulse (EMP) measured by the observer is obtained. The basic theory derived ignores the conductivity that forms in the surrounding air. This is a good assumption for weapons with less than a thousand tons of gamma radiation. There is also a section in the text that specifies the necessary formula derivation of EMPs in conductive media.