Characteristics of the cylindrical reflex triode driven by a four-stage linear transformer driver.

Abstract

A cylindrical reflex triode was designed and directly driven by a four-stage linear transformer driver to generate high intensity pulsed warm x rays. We developed a numerical model of the cylindrical reflex triode and simulated and studied the experimental electron distribution and the radiation characteristics. The working voltage of the cylindrical reflex triode is 220kV, and the current is about 600kA. Under the voltage pulse with a rise time of 100ns, the electron beam spot is uniform, and the duration of the gap without short circuit reaches 200ns. The x-ray dose is 385rad (Si), with an irradiation area of 615cm2 and a uniformity of less than 2:1. The radiation field distribution is basically consistent with the simulation results. Compared with the two-stage series diode on the Flash-II accelerator, the x-ray conversion efficiency of the cylindrical reflex triode is increased about 1.6 times.