Title :
Fast-Framing Optical Imaging of Plasma Formation in Resonant Microwave Pulse Compressor
Author :
Beilin, Leonid ; Shlapakovski, Anatoli S. ; Donskoy, Moshe ; Hadas, Yoav ; Dai, U. ; Krasik, Yakov E.
Author_Institution :
Dept. of Phys., Technion - Israel Inst. of Technol., Haifa, Israel
Abstract :
Plasma evolution in the interference switch of an S-band pulse compressor operating in the frequency of 2.766 GHz, with input pulses of 200-450-kW power and duration of 2.4 μs, was studied experimentally and in numerical simulations. The system was filled with dry air at 2 × 105-3 × 105-Pa pressure. The plasma discharge that switches the phases of the compressor operation from energy storage to release was initiated by a Surelite laser. The evolution of the light emission from the plasma was studied using fast-framing optical imaging with a 4QuikE camera. From the obtained typical size of the plasma and its velocity of expansion along the electric field, the density of the plasma was estimated, and the influence of its evolution on the power and waveform of microwave output pulses observed in the experiments was determined in simulations.
Keywords :
compressors; high-frequency discharges; numerical analysis; plasma density; plasma diagnostics; plasma light propagation; plasma simulation; plasma switches; 4QuikE camera; S-band pulse compressor; Surelite laser; electric field velocity expansion; energy storage; fast-framing optical imaging; frequency 2.766 GHz; input power pulses; interference switch; microwave output waveform pulses; microwave plasma discharge; numerical simulation; plasma density; plasma discharge; plasma evolution; plasma formation; plasma light emission; power 200 kW to 450 kW; resonant microwave pulse compressor; time 2.4 mus; Cavity resonators; Conductivity; Microwave imaging; Optical switches; Optical waveguides; Plasmas; Power generation; Microwave pulse compression; plasma switch; plasma switch.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2316204
