Radiation Field of a Charged Particle Accelerated in a Diode Gap
摘要
Abstract
Experimental computations are used to study the spatial-temporal structure of the radiation field of a charged particle moving in the accelerating gap of an electron gun (a diode gap). It is shown that the radiation field is in this case a unipolar electromagnetic pulse. The dependence of the shape of the emitted pulse on the rate of particle acceleration is analyzed.