Title :
Axial mode locking in a harmonic-multiplying, inverted gyrotwystron
Author :
Zhao, J. ; Nusinovich, Gregory S. ; Guo, H. ; Rodgers, John C. ; Granatstein, Victor L.
Author_Institution :
Inst. for Plasma Res., Maryland Univ., College Park, MD, USA
fDate :
6/1/2000 12:00:00 AM
Abstract :
When in microwave sources, an open waveguide operating at frequencies close to cutoff is used as a resonator, a number of modes with the same transverse structure, but different axial distribution can be excited by an electron beam. The width of the resonance curves of these modes broadens as the number of axial variations grows. This leads to overlapping of these curves at large axial indexes. As a result, phase locking of such modes may occur. A theory describing axial mode locking in gyrodevices is developed. The results of theoretical analysis are compared to a harmonic-multiplying, inverted gyrotwystron experiment. It is shown that such phase-locked operation in a set of modes with overlapping resonance curves can significantly enlarge the bandwidth of gyrodevices. Furthermore, this technique may be broadly applicable to other devices, which employ cavities with overlapping modes
Keywords :
gyrotrons; axial distribution; axial mode locking; electron beam; gyrodevices; harmonic-multiplying inverted gyrotwystron; harmonic-multiplying inverted gyrotwystron experiment; microwave sources; open waveguide; overlapping modes; overlapping resonance curves; phase locking; phase-locked operation; resonance curves; resonator; transverse structure; Bandwidth; Cutoff frequency; Electromagnetic radiation; Electromagnetic waveguides; Electron beams; Gyrotrons; Harmonic analysis; Laser mode locking; Millimeter wave communication; Resonance;
Journal_Title :
Plasma Science, IEEE Transactions on
