Title :
Modeling of Reflex Triode Virtual Cathode Oscillator
Author :
Saxena, Ankur ; Singh, N.M. ; Shambharkar, Kunal Y. ; Kazi, Faruk
Author_Institution :
Electr. Dept., Veermata Jijabai Technol. Inst., Mumbai, India
Abstract :
An investigation of the reflex triode virtual cathode oscillator based on simulations with 3-D particle-in-cell code developed by ATK Mission Systems is done. The device model is based on an actual experimental setup with 15-mm anode-cathode gap. The obtained simulation results use a single-shot 200-kV, 300-ns pulse at anode. Numerical analysis is done to validate the results and to gain insight into the dynamics of the electrons emitted from the cathode surface and their movement between the cathode and the virtual cathode. The obtained single dominant microwave frequency for the model is 2.35 GHz with virtually no competing frequencies.
Keywords :
anodes; electron emission; numerical analysis; triodes; vircators; 3D particle-in-cell code; ATK Mission Systems; anode-cathode gap; cathode surface; electron emission; frequency 2.35 GHz; microwave frequency; numerical analysis; reflex triode virtual cathode oscillator; single-shot pulse; size 15 mm; time 300 ns; voltage 200 kV; Anodes; Cathodes; Electrical engineering; Microwave oscillators; Numerical models; Plasmas; Electron emission; microwave devices; plasma devices; plasma oscillations; pulse power systems; pulse power systems.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2303854
