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Gyrotron‐backward‐wave‐oscillator experiments utilizing a high current, high voltage, microsecond electron accelerator
Spencer, Thomas A.; Gilgenbach, Ronald M.; Choi, Jin J.
1992-08-15
Citation:Spencer, Thomas A.; Gilgenbach, Ronald M.; Choi, Jin J. (1992). "Gyrotron‐backward‐wave‐oscillator experiments utilizing a high current, high voltage, microsecond electron accelerator." Journal of Applied Physics 72(4): 1221-1224. <http://hdl.handle.net/2027.42/70862>
Abstract: We report the first gyrotron‐backward‐wave‐oscillator experiments to produce high power (tube power of ∼1–8 MW), long‐pulse (0.3–1.2 μs) microwaves at high currents (0.1–2 kA) and high voltages (650–750 kV). Experiments were performed in the TE11 fundamental backward‐wave mode, with efficiencies of ∼1%–2%. Mode competition was observed which is believed to originate from the TE21 absolute instability.
