High-Power Microwave Generation by Double-Anode Virtual Cathode Oscillator

Abstract

The virtual cathode oscillator (vircator) is one of the promising devices oscillating high-power microwaves. Simplicity and high-power capability are advantages. However, the low efficiency and frequency stability are serious problems. To improve oscillation efficiency, strengthen the feedback of the electromagnetic wave to the electron beam by pre-modulating the injected electron beam. Using double-anode and configuring a cavity is effective. In this paper, we dealt a double-anode to improve output power. Experiments were carried out on a repetitively pulsed power generator “ETIGO-IV” (maximum output: 400 kV, 13 kA, 120 ns, 1 Hz). The output microwaves are diagnosed for peak power and energy by using horn antennas. The microwave frequency is obtained by fast-Fourier analysis of the signal recorded by a high-speed digital oscilloscope. From the experimental result, the microwaves are obtained peak power of ~100MW. These results are shown that the output of the virtual cathode oscillator can be progress by using the double-anode. In addition, particle-in-cell simulations were carried out by using a simulation code “MAGIC.” Simulation results are compared with experimental results to examine the effect of the double-anode and possible ways of further improvement of microwave efficiency.