bai xian-chen, yang jian-hua, zhang jian-de. Simulation and diagnosis of synchronized intense beams produced with a dual-cathode diode[J]. High Power Laser and Particle Beams, 2007, 19.
Citation:
bai xian-chen, yang jian-hua, zhang jian-de. Simulation and diagnosis of synchronized intense beams produced with a dual-cathode diode[J]. High Power Laser and Particle Beams, 2007, 19.
bai xian-chen, yang jian-hua, zhang jian-de. Simulation and diagnosis of synchronized intense beams produced with a dual-cathode diode[J]. High Power Laser and Particle Beams, 2007, 19.
Citation:
bai xian-chen, yang jian-hua, zhang jian-de. Simulation and diagnosis of synchronized intense beams produced with a dual-cathode diode[J]. High Power Laser and Particle Beams, 2007, 19.
Utilizing one accelerator to produce dual or multi-beam electrons has the advantages of high synchronization, high efficiency, and high power, which is the key technique for microwave power combining. The intense dual-beam was simulated with diode impedance about 10 W and input voltage of 442.6 kV. The simulation gave a total beam current of 47.6 kA, a gross power of 20 GW, and synchronization time-difference less than 6 ns. Bombarding the stainless steel witness-target and diagnosing the synchronous dual-beam were experimentally studied. The two stainless steel cathodes were 30 mm long with a radius of 20 mm and a distance of 100 mm between them, and the emitting surfaces were velvet. At diode voltage of 442.8 kV, total beam of 48.78 kA and synchronization time-difference of 4~6 ns were o
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