Title :
Dielectric loaded CARM
Author :
Leou, K.C. ; McDermott, D.B. ; Luhmann, N.C.
Abstract :
Summary form only given. A cyclotron autoresonance maser (CARM) with a dielectric loaded waveguide structure to allow low-voltage operation has been developed. For the initial experiment, a 75-kV, 4-A electron beam with α=0.6-1.5 was employed to interact with a wave near the light line. To optimize the interactions in both the wiggler region and the CARM region, the axial solenoid field in each region was controlled independently. By sweeping the axial magnetic field of the CARM solenoid and hence moving the cyclotron resonance line along the dispersion curve of the wave; several axial modes in the cavity were excited, including a gyro-BWO (backward wave oscillation). A wave with large k||≈ 0.7 (ω/c) was excited at 12.72 GHz with a Doppler upshift of 44%, albeit at a power of only 300 W. The electron beam´s velocity spread inhibits the generation of waves with large k||. To enhance the interaction efficiency and to excite the desired wave with k ||≈ω/c, the period of the wiggler has been doubled to reduce the axial velocity spread from 8% to less than 2%
Keywords :
Doppler effect; dielectric-loaded waveguides; gyrotrons; masers; optimisation; 12.72 GHz; 12.8 kW; 24.6 kW; 300 W; 4 A; 75 kV; CARM; Doppler upshift; axial solenoid field; axial velocity spread; cyclotron autoresonance maser; cyclotron resonance line; dielectric loaded waveguide structure; dispersion curve; electron beam; gyro-backward wave oscillation; interaction efficiency; interaction optimisation; light line; low-voltage operation; magnetic field; sweeping; velocity spread; wiggler region;
Conference_Titel :
Plasma Science, 1990. IEEE Conference Record - Abstracts., 1990 IEEE International Conference on
Conference_Location :
Oakland, CA, USA
DOI :
10.1109/PLASMA.1990.110804
