Results 21 to 30 of about 169 (82)
Multiwave resonance clinotron of millimeter range
Описаны физические принципы построения вакуумных источников электромагнитных колебаний непрерывного действия, излучающие СВЧ энергию одновременно на нескольких несущих частотах в миллиметровом диапазоне.
Ефимов, Б.П.
core
Mode interaction in a slow wave resonator with electron beam
Рассмотрена задача о возбуждении электронным потоком резонатора поверхностной волны, который является электродинамической структурой резонансной лампы обратной волны и клинотрона.
Лукин, К.А. +1 more
core +1 more source
0.1–0.4 THz clinotron table-top modules for spectroscopy applications
A. Danik +8 more
core +1 more source
Experimental proof-of-principle demonstration of sub-MM clinotron-multiplier
Mihail V. Milcho +3 more
core +1 more source
Mode interaction in resonant Clinotron
Self-oscillations in multimode Clinotron have been investigated. The effects taking place due to modes interaction have been analyzed.
Konstantin A Lukin, Eduard Khutoryan
exaly +3 more sources
The sub-THz clinotron-multiplier
We outline an experimental set-up for the sub- terahertz CW clinotron (a BWO with a comb-type slow- wave structure and an inclined beam) frequency multiplier oscillator. The clinotron-multiplier operation is expected to quadruple f b ~ 146.5 GHz (2.04 mm) microwave signal, which is generated in the buncher section of the device, to obtain f c ~ 586 ...
Kostyantyn Ilyenko +1 more
exaly +3 more sources
Prime study on dispersion of 0.3THz clinotron
Based on the research of dispersion relationship and field distribution of clinotron theoretically, the resonator used for 0.3THz clinotron is designed. The mode distribution on transverse section area of optimum structure is analyzed, which is meaningful for the further development of 0.3THz clinotron.
Teng Yan, Wang Guangqiang
exaly +3 more sources
Experimental study on 0.1 THz Clinotron
A multimode theory of resonant backward wave oscillator with inclined electron beam — Clinotron is introduced. The mechanism of the efficiency enhancement due to mode interaction is unveiled through numerical simulation. The experimental setup for 0.1 THz Clinotron is being developed and the details of each part will be presented.
Matlabjon Sattorov +2 more
exaly +3 more sources

