A Compact Repetitive Marx Generator for Generating Intense Electron Beams for HPM Sources

A 500 kV, 80 Hz repetition rate compact Marx generator has been designed and developed for producing high intense relativistic electron beams for high-power microwave (HPM) sources. This Marx generator comprises eight bipolar stages (16 stages of unipolar) using energy storage capacitors for achieving improved performance in repetition mode operation. The maximum charging voltage per stage is 50 kV, producing an erected voltage of 800 kV. However, the load voltage will vary according to the impedance of the load connected across the generator. Custom-designed energy storage capacitors were developed to allow voltage reversal of up to 30%-50%, enabling the system to deliver a higher current. A small pulse transformer-based triggering unit with an output voltage of 30 kV was used for triggering the generator. The system's performance was tested in pulse repetition frequency (PRF) mode with resistive and diode loads and achieved a repetition rate of 80 Hz. An energy density of similar to 460 J/m3 was achieved in the developed system. A vircator device was connected and tested to benchmark the Marx generator for its repetitive and burst mode operations. The test results show the measured RF output power of 100 MW.

Automated summary

A compact Marx generator with a voltage of 500 kV and repetition rate of 80 Hz was designed and developed for generating high-intense relativistic electron beams in high-power microwave sources. It consists of eight bipolar stages (16 stages of unipolar), utilizing energy storage capacitors for improved performance in repetition mode operation. The generator achieved a repetition rate of 80 Hz in pulse repetition frequency (PRF) mode, with a measured RF output power of 100 MW when tested with a vircator device.