Title :
Improved Bifrequency Magnetically Insulated Transmission Line Oscillator
Author :
Wang, Dong ; Chen, Daibing ; Qin, Fen ; Fan, Zhikai
Author_Institution :
Inst. of Appl. Electron., China Acad. of Eng. Phys., Mianyang, China
Abstract :
Bifrequency magnetically insulated transmission line oscillator (BFMILO) is a high-power microwave device that can generate microwave with two output frequencies simultaneously in a single tube. Through both theoretical analysis and numerical simulation, a better understanding of the high-frequency characteristics of an original BFMILO is obtained. It is the intrinsic field distribution that has been found to be the reason of low efficiency of the original BFMILO. Introducing some modification into the slow-wave structure region, an improved BFMILO is designed. High-frequency analysis reveals that it has a better field distribution than the original one. Employing an electron beam of 445 kV and 39.7 kA, the improved BFMILO yields a microwave power of 2.0 GW in PIC simulation while the output is 1.7 GW for the original one, and the two frequencies are 1.21 and 1.46 GHz, the same as the original.
Keywords :
microwave oscillators; slow wave structures; transmission line theory; PIC simulation; bifrequency magnetically insulated transmission line oscillator; current 39.7 kA; electron beam; frequency 1.21 GHz; frequency 1.46 GHz; high-frequency characteristics; high-power microwave device; intrinsic field distribution; microwave power; output frequency; power 1.7 GW; power 2.0 GW; slow-wave structure region; voltage 445 kV; Bifrequency magnetically insulated transmission line oscillator (BFMILO); dual-radius slow-wave structure (SWS); high-power microwave (HPM); improved;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2009.2034524
