2015
DOI: 10.1109/tps.2015.2446502
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Control of the Operation Mode of a Relativistic <italic>Ka</italic>-Band Backward-Wave Oscillator

Abstract: Variations in the transient time and in the microwave pulse duration and peak power have been demonstrated for a relativistic subgigawatt K a-band backwardwave oscillator (BWO) with the slow-wave structure geometry, the accelerating voltage, and the electron beam current remained unchanged. This was done taking into account that the BWO operation mode depends on the starting-current-tobeam-current ratio. Efficient variation of the starting current was attained by changing the beam path in view of a significant… Show more

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Cited by 10 publications
(2 citation statements)
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“…The second series of experiments with coaxial electron beams was performed using SR BWO operating in a 38 GHz band [10]. Gap D was reduced to 6 mm, and an external beam current increased to ≈2.2 kA.…”
Section: Experimental Scheme and Formation Of Coaxial Beamsmentioning
confidence: 99%
“…The second series of experiments with coaxial electron beams was performed using SR BWO operating in a 38 GHz band [10]. Gap D was reduced to 6 mm, and an external beam current increased to ≈2.2 kA.…”
Section: Experimental Scheme and Formation Of Coaxial Beamsmentioning
confidence: 99%
“…When α increases, several axisymmetric modes at the required frequency could appear together in the corrugated waveguide. According to the previous research, the coupling impedance and the growth rate of the lowest axisymmetric mode TM 01 are always much larger than those of other higher axisymmetric ones thus resulting in the dominance in the mode competition [24], [25]. Therefore, TM 01 always works as the operation mode in RBWO [11], [26].…”
Section: Introductionmentioning
confidence: 99%