Some Techniques for Diagnostics of the Cold Plasma Jet Generated on the Base of the Atmospheric-Pressure Microwave Discharge

S. N. Antipov; Антипов С. Н.; V. M. Chepelev; Чепелев В. М.; M. Kh. Gadzhiev; Гаджиев М. Х.; A. G. Abramov; Абрамов А. Г.; A. V. Ugryumov; Угрюмов А. В.

doi:10.31857/S0367292122601382

Some Techniques for Diagnostics of the Cold Plasma Jet Generated on the Base of the Atmospheric-Pressure Microwave Discharge

作者: Antipov S.N.¹, Chepelev V.M.¹, Gadzhiev M.K.¹, Abramov A.G.², Ugryumov A.V.²
隶属关系:
1. Joint Institute for High Temperatures, Russian Academy of Sciences
2. TVEL
期: 卷 49, 编号 5 (2023)
页面: 407-411
栏目: LOW TEMPERATURE PLASMA
URL: https://kazanmedjournal.ru/0367-2921/article/view/668522
DOI: https://doi.org/10.31857/S0367292122601382
EDN: https://elibrary.ru/VDVXPH
ID: 668522

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详细

The atmospheric-pressure cold plasma jet that is a flowing afterglow of the interelectrode microwave discharge in Ar was investigated using various diagnostic techniques. Waveguide-type 2.45-GHz-plasmatron with the external 6-rod-electrode plasma torch was used as the cold plasma source. High-speed shadowgraphy was used to obtain spatio-temporal structure of the cold plasma jet. The periodic character of plasma generation was studied using electric probe floating potential measurements with an oscilloscope.

关键词

microwave plasmatron, cold plasma jet, flowing afterglow, shadowography, electric probe

参考

Kang S.K., Kim H.Y., Yun G.S., Lee J.K. // Plasma Sources Sci. Technol. 2015. V. 24. P. 035020.
Vesel A., Primc G., Zaplotnik R., Mozetič M. // Plasma Phys. Control. Fusion. 2020. V. 62. P. 024008.
Fanelli F., Fracassi F. // Surface Coat. Technol. 2017. V. 322. P. 174.
Shibkov V.M. // Moscow Univ. Phys. 2019. V. 74. P. 421.
Lebedev Y.A., Mokeev M.V. // High Temp. 2000. V. 38. P. 358.
Gritsinin S.I., Knyazev V.Y., Kossyi I.A., Malykh N.I., Misakyan M.A. // Plasma Phys. Rep. 2004. V. 30. P. 255.
Räuchle E. // J. Phys. IV France. 1998. V. 8. P. Pr7-99-Pr7-108.
Gritsinin S.I., Kossyi I.A., Malykh N.I., Misakyan M.A., Temchin S.M., Bark Y.B. Preprint. Russ. Acad. Sciences. General Phys. Inst. № 1. Moscow, 1999.
Shibkov V.M., Vinogradov D.A., Voskanyan A.V., Ershov A.P., Timofeev L.B., Shibkova L.V., Chernikov V.A. // Moscow Univ. Phys. 2000. V. 55. P. 80.
Shibkov V.M., Aleksandrov A.F., Ershov A.P., Timofeev I.B., Chernikov V.A., Shibkova L.V. // Plasma Phys. Rep. 2005. V. 31. P. 795.
Shibkov V.M., Dvinin S.A., Ershov A.P., Konstantinov-skiῐ R.S., Surkont O.S., Chernikov V.A., Shibkova L.V. // Plasma Phys. Rep. 2007. V. 33. P. 72.
Dvinin S.A., Shibkov V.M., Mikheev V.V. // Plasma Phys. Rep. 2006. V. 32. P. 601.
Тихонов В.Н., Иванов И.А., Крюков А.Е., Тихо-нов А.В. // Прикладная физика. 2015. № 5. С. 102.
Tikhonov V.N., Aleshin S.N., Ivanov I.A., Tikhonov A.V. // J. Phys. Conf. Ser. 2017. V. 927. P. 012067.
Shimizu T., Steffes B., Pompl R., Jamitzky F., Bunk W., Ramrath K., Georgi M., Stolz W., Schmidt H.-U., Urayama T., Fujii S., Morfill G.E. // Plasma Process. Polym. 2008. V. 5. P. 577.
Herbst F., Schalkwyk J.V., and McGovern M. Comprehensive Clinical Plasma Medicine / Eds. H.R. Metelmann, T. von Woedtke, K.D. Weltmann. Springer: Cham, 2018. P. 503.
Chepelev V.M., Chistolinov A.V., Khromov M.A., Anti-pov S.N., Gadzhiev M.Kh. // J. Phys.: Conf. Ser. 2020. V. 1556. P. 012091.
Antipov S.N., Sargsyan M.A., Gadzhiev M.Kh. // J. Phys.: Conf. Ser. 2020. V. 1698. P. 012029.
Chepelev V.M., Chistolinov A.V., Antipov S.N., Gadzhi-ev M.Kh. // J. Phys.: Conf. Ser. 2021. V. 2100 P. 012029.