Inelastic processes in a gas discharge plasma of inert gases

Afanasyev, V.; Smirnov, B.; Zhilyaev, D.

doi:10.31857/S004036440003354-3

Home

Teplofizika vysokikh temperatur

Issue 5

Inelastic processes in a gas discharge plasma of inert gases

Annotation
Reviews
References

Inelastic processes in a gas discharge plasma of inert gases

PII

S004036440003354-3-1

DOI

10.31857/S004036440003354-3

Publication type

Article

Status

Published

Authors

V. Afanasyev

Affiliation: National Research University “Moscow Energy Institute”
Address: Russian Federation

B. Smirnov

Affiliation: Joint Institute for High Temperatures RAS
Address: Russian Federation

D. Zhilyaev

Affiliation: Joint Institute for High Temperatures RAS
Address: Russian Federation

Journal name

Teplofizika vysokikh temperatur

Edition

Volume 56 Issue 5

Pages

645-655

Abstract

Keywords

Received

27.12.2018

Publication date

27.12.2018

Cite Download pdf To download PDF you should sign in

GOST	Afanasyev V., Smirnov B., Zhilyaev D. Inelastic processes in a gas discharge plasma of inert gases // Teplofizika vysokikh temperatur – 2018. – V. 56. – Issue 5 C. 645-655 [Electronic resource]. URL: http://ras.jes.su/tvt/s004036440003354-3-1-en (circulation date: 26.04.2024). DOI: 10.31857/S004036440003354-3
MLA	Afanasyev, V., Smirnov, B., Zhilyaev, D. "Inelastic processes in a gas discharge plasma of inert gases." Teplofizika vysokikh temperatur 56.5 (2018):645-655. DOI: 10.31857/S004036440003354-3
APA	Afanasyev V., Smirnov B., Zhilyaev D. (2018). Inelastic processes in a gas discharge plasma of inert gases. Teplofizika vysokikh temperatur 56(5), pp.645-655 DOI: 10.31857/S004036440003354-3

Размещенный ниже текст является ознакомительной версией и может не соответствовать печатной

Readers community rating: votes 0

1. Rajzer Yu. P. Fizika gazovogo razryada. M.: Intellekt, 2009. 736 s.

2. Biberman L.M., Vorob'ev V. S., Yakubov I. T. Nizkotemperaturnaya plazma s neravnovesnoj ionizatsiej // UFN. 1979. T. 128. № 6. S. 233.

3. Biberman L.M., Vorob'ev V. S., Yakubov I. T. Kinetika neravnovesnoj nizkotemperaturnoj plazmy. M.: Nauka, 1982. 328 c.

4. Ferreira S.M., Loureiro J., Ricard A. Populations in the Metastable and the Resonance Levels of Argon and Stepwise Ionization Effects in a Low Pressure Argon Positive Column // J. Appl. Phys. 1985. V. 57. № 1. P. 82.

5. Bogaerts A., Gijbels R., Vlcek J. Collisional-radiative Model for an Argon Glow Discharge // J. Appl. Phys. 1998. V. 84. № 1. P. 121.

6. Bogaerts A., Gijbels R., Vlcek J. Role of Ar2+ and Ar2+ Ions in a Direct Current Argon Glow Discharge: A Numerical Description // J. Appl. Phys. 1999. V. 86. № 8. P. 4124.

7. Bogaerts A., Gijbels R. Description of the Argon-excited Levels in a Radio-frequency and Direct Current Glow Discharge // Spectrochim. Acta. 2000. V. 55B. № 3. P. 263.

8. Vlcek J. A. Sollisional-radiative Model Applicable to Argon Discharges over a Wide Range of Conditions // J. Phys. 1989. V. 22. № 5. P. 623.

9. Capitelli M., Dilonardo M., Gorse C. Coupled Solutions of the Collisional Boltzmann Equation for Electrons and the Heavy Particle Master Equation in Nitrogen // Chem. Phys. 1981. V. 56. № 1. P. 29.

10. Bretagne J., Capitelli M., Gorse C., Puec V. Influence of Excited States on the Electron Distribution Function in an Argon Plasma for Discharge and Post-Discharge Conditions // EPL. 1987. V. 3. № 11. P. 1179.

11. Shutov B.M., Smirnov S. A., Konovalov A. S., Ivanov A. N. Modelirovanie khimicheskogo sostava plazmy razryada postoyannogo toka atmosfernogo davleniya v vozdukhe nad vodnymi rastvorami sul'fonola // TVT. 2016. T. 54. № 4. S. 508.

12. Afanas'ev V.P., Smirnov B. M., Zhilyaev D. A. Excited Atoms in Argon Gas Discharge Plasma // JETP. 2014. V. 146. № 1. P. 160.

13. Smirnov B. M. Theory of Gas Discharge Plasma. Berlin: Springer, 2015. 423 p.

14. Dyatko N. A., Ionikh Y.Z, Kohetov I. V. et al. Experimental and Theoretical Study of the Transition between Diffuse and Contracted forms of the Glow Discharge in Argon // J. Phys. 2008. V. 41. № 5. P. 055204.

15. Smirnov B. M. Svojstva gazorazryadnoj plazmy. CPb.: Izd-vo Politekh. un-ta, 2010. 361 c.

16. Pack J. L., Voshall R. E., Phelps A. V., Kline L. E. Longitudinal Electron Diffusion Coefficients in Gases: Noble Gases // J. Appl. Phys. 1992. V. 71. № 11. P. 5363.

17. Smirnov B. M. Plasma Processes and Plasma Kinetics. Weinheim: Wiley, 2007. 572 p.

18. Smirnov B. M. Kinetika ehlektronov v gazakh i kondensirovannykh sistemakh // UFN. 2002. T. 172. № 12. S. 1411.

19. Smirnov B. M. Physics of Ionized Gases. N.Y.: Wiley, 2001. 381 p.

20. Smirnov B. M. Excitation of Helium Atoms in Collisions with Plasma Electrons in an Electric Field // JETP. 2013. V. 143. № 1. P. 58.

21. Smirnov B. M. F izika slaboionizovannogo gaza. M.: Fizmatgiz, 1972. 424 s.

22. Landau L. D. Kineticheskoe uravnenie v sluchae kulonovskogo vzaimodejstviya // ZhEhTF. 1937. T. 7. S. 203.

23. Gurevich L. Eh. Osnovy fizicheskoj kinetiki. L.: GITTL, 1940. 245 c.

24. Kudryavtsev A. A., Smirnov A. A., Tsendin L. D. Fizika tleyuschego razryada. SPb.: Lan', 2010. 512 s.

25. Vdovin Yu. A., Galitskij V. M. Diehlektricheskaya pronitsaemost' gaza rezonansnykh atomov // ZhEhTF. 1967. T. 52. № 5. S. 1345.

26. Krainov V. P., Reiss H. R., Smirnov B. M. Radiative Processes in Atomic Physics. N.Y.: Wiley, 1987. 308 p.

27. Veklenko B. A. O funktsii Grina uravneniya diffuzii izlucheniya // ZhEhTF. 1959. T. 36. № 1. S. 204.

28. Thomson J. J. Ionization by Moving Electrified Particles // Phil. Mag. 1912. V. 23. P. 449.

29. Mustafaev A. S. – U., Nekuchaev V. O., Sukhomlinov V. S. Vliyanie uprugikh stolknovenij na funktsiyu raspredeleniya ionov v plazme gazovogo razryada v sobstvennom gaze // TVT. 2018. T. 56. S. 168.

30. Smirnov B. M. Iony i vozbuzhdennye atomy v plazme. M.: Atomizdat, 1974. 456 s.

31. Smirnov B. M. Modelirovanie gazorazryadnoj plazmy // UFN. 2009. T. 179. № 6. S. 591.