MICROWAVE RADIATION WITH STOCHASTICALLY JUMPING PHASE:GENERATION AND APPLICATION TO DEVELOP A NEW TYPE OF OPTICAL RADIATION SOURCES

Authors

  • В. И. Карась
  • В. И. Голота
  • А. М. Егоров
  • И. Ф. Потапенко
  • А. Г. Загородний

Abstract

The results of theoretical and experimental investigations on
generating stochastic oscillations in the decimeter wavelength band, due to the collective interactions of electron beam with plasma, are reported. The possibility of creating beam-plasma generators of stochastic oscillations operating in a quasi-cw regime is demonstrated. The research methods are described and the principal characteristics of the generated oscillations are studied. We study the plasma discharge, initiated by microwave radiation with stochastically jumping phase  MWRSJP) in a coaxial waveguide at the optimal mode of the beam-plasma generator. In this paper the conditions of a microwave discharge ignition, its stable maintenance in air by  MWRSJP, and the pressure range at which required power is minimal are found. We experimentally examine also optical characteristics of the discharge plasma in a wide range of air pressure. In general the research aims to develop a new
type of sources of optical radiation.

Microwave radiation, stochastic oscillation, jumping phase,
generation, low pressure, discharge ignition, electron beam, plasma, collective interaction, coaxial waveguide, beam-plasma generator, optical characteristics.

How to Cite

Карась, В. И., Голота, В. И., Егоров, А. М., Потапенко, И. Ф., & Загородний, А. Г. (2013). MICROWAVE RADIATION WITH STOCHASTICALLY JUMPING PHASE:GENERATION AND APPLICATION TO DEVELOP A NEW TYPE OF OPTICAL RADIATION SOURCES. Lighting Engineering & Power Engineering, (2), 33–51. Retrieved from https://lepe.kname.edu.ua/index.php/lepe/article/view/255

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Section

Articles