Title :
A novel hybrid slow-wave/fast-wave traveling-wave amplifier
Author :
Lawson, Wes ; Fernandez, Anna ; Hutchings, Tara ; Saraph, Girish P.
Author_Institution :
Dept. of Electr. Eng., Maryland Univ., College Park, MD, USA
fDate :
10/1/1997 12:00:00 AM
Abstract :
We introduce a new broad-band amplifier configuration which contains elements of both linear and cyclotron resonance maser microwave tubes. A helix slow-wave structure is used to bunch a linearly streaming annular electron beam. A nonadiabatic magnetic transition, which is placed after a drift region at the point where the ac beam current is nearly maximized, converts much of the beam´s axial momentum to rotational momentum. The beam then travels through a tapered right-circular waveguide, where microwave energy is extracted via the gyrotron interaction. The design of a proof-of-principle X-band amplifier is given, and the codes that are used in the simulation are described. The nominal beam voltage and current are 45 kV and 8 A, respectively. The tube is predicted to be stable, to possess a peak efficiency above 43%, and to have an instantaneous bandwidth of over 9%
Keywords :
cyclotron masers; masers; microwave tubes; relativistic electron beam tubes; slow wave structures; travelling wave amplifiers; 43 percent; 45 kV; 8 A; AC beam current; X-band amplifier; axial momentum; broad-band amplifier configuration; cyclotron resonance maser microwave tubes; drift region; gyrotron interaction; helix slow-wave structure; hybrid slow-wave/fast-wave traveling-wave amplifier; linearly streaming annular electron beam; microwave energy; nonadiabatic magnetic transition; rotational momentum; tapered right-circular waveguide; Bandwidth; Circuits; Cyclotrons; Electromagnetic waveguides; Frequency; Gyrotrons; Klystrons; Magnetic resonance; Microwave amplifiers; Power amplifiers;
Journal_Title :
Plasma Science, IEEE Transactions on
