MICROWAVE METHOD OF TUBULAR PLASMA DENSITY MEASUREMENT FOR RELATIVISTIC MICROWAVE OSCILLATOR

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Abstract

The method for determining the absolute plasma density in sources that create plasma in the strong magnetic field using the electron beam has been developed and tested. The results of plasma density measurements in the source of tubular plasma used in research on plasma relativistic microwave electronics are presented. It was shown that at time of switching-on plasma maser, for discharge currents of 5, 9, and 20 A, the plasma densities were (3 A 0.3) A ∼ 1012, (5.5 A 0.6) A ∼ 1012, and (9.5 A 1) A ∼ ∼ 1012 cm–3, respectively. Comparison with the probe measurements previously performed, as well as with the numerical calculations made using the KARAT code, showed good agreement between the results of microwave measurements and numerical calculations, while the measurement error did not exceed 15%. The results of probe measurements much stronger deviate from the results of microwave measurements, which is associated with the presence of the strong magnetic field in the plasma source.

About the authors

A. V. Ponomarev

Prokhorov General Physics Institute, Russian Academy of Sciences

Email: aponomarev68@gmail.com
Moscow, Russia

D. K. Ul’yanov

Prokhorov General Physics Institute, Russian Academy of Sciences

Email: ulyanov@fpl.gpi.ru
Moscow, Russia

References

  1. Buleyko A.B., Ponomarev A.V., Loza O.T., Ulyanov D.K., Sharypov K.A., Shunailov S.A., Yalandin M.I. // Phys. Plasmas. 2021.V. 28. № 2. P. 023304 doi: 10.1063/5.0031432
  2. Стрелков П.С., Тараканов В.П., Диас Михайлова Д.Е., Иванов И.Е., Шумейко Д.В. // Физика плазмы. 2019. Т. 45.№4. С. 335.
  3. Стрелков П.С., Иванов И.Е., Диас Михайлова Е.Д., Шумейко Д.В. // Физика плазмы. 2021. Т 47.№3. С. 257.
  4. Пономарев А.В., Ульянов Д.К. // Физика плазмы. 2023. Т. 49. № 6. С. 576. doi: 10.31857/S0367292122601485
  5. Кузелев М.В., Рухадзе А.А., Стрелков П.С. Плазменная релятивистская СВЧ-электроника. М.: ЛЕНАНД, 2018. 624 с.
  6. Buleyko A.B., Ponomarev A.V., Loza O.T., Ulyanov D.K., Andreev S.E. // Phys. Plasmas. 2021. V. 28.№2. P. 023303 doi: 10.1063/5.0013145
  7. Богданкевич И.Л., Гришин Д.М., Гунин А.В., Иванов И.Е., Коровин С.Д., Лоза О.Т., Месяц Г.А., Павлов Д.А., Ростов В.В., Стрелков П.С., Ульянов Д.К. // Физика плазмы. 2008.Т. 34.№ 10. С. 926. doi: 10.1134/S1063780X08100061
  8. Лоза О.Т., Пономарев А.В., Стрелков П.С. и др. // Физика плазмы. 1997.Т. 23. №3. С. 222.

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