Gas discharge structure in a uhf field

1. Yu. P. Raizer, Laser Spark in Discharge Propagation [in Russian], Nauka, Moscow (1974).

   Google Scholar 

2. E. Ya. Kogan, “Nonlinear ionization waves,” Fiz. Plazmy,7, No. 6 (1981).

3. V. E. Semenov, “Breakdown wave in the self-consistent field of an electromagnetic wave beam,” Fiz. Plazmy,8 No. 3 (1982).

4. Yu. A. Brodskii, S. V. Golubev, et al., “New mechanism of gas dynamic discharge propagation,” Zh. Eksp. Teor. Fiz.,84, No. 5 (1983).

5. E. Ya. Kogan and B. Yu. Kuzin, “Steady state ionization waves in a high frequency subthreshold field,” Fiz. Plazmy,11, No. 5 (1985).

6. V. I. Petviashvili and O. Yu. Tsvelodub, “Horseshoe-like solitons in a flowing viscous liquid film,” Dokl. Akad. Nauk SSSR,238, No. 6 (1978).

7. M. V. Zheleznyak, A. Kh. Mnatsakanyan, and S. V. Sizykh, “Photoionization of nitrogen-oxygen mixtures by gas discharge radiation,” Teplofiz. Vys. Temp.,20, No. 3 (1982).

8. N. A. Bogatov, S. V. Golubev, and V. G. Zorin, “Ionizing radiation of a uhf-discharge,” Pis'ma Zh. Tekh. Fiz.,9, No. 14 (1983).

9. N. A. Bogatov, S. V. Golubev, and V. G. Zorin, “Mechanism for plasma corona formation about a uhf-discharge,” Fiz. Plazmy,12, No. 11 (1986).

10. N. A. Bogatov, Yu. A. Brodskii, et al., “Rapid ionization wave excited in a gaseous medium by an electromagnetic beam,” Kratk. Soobshch. Fiz., No. 9 (1984).

11. G. M. Batanov, S. I. Gritsinin, et al., “High pressure uhf-discharges,” Tr. FIAN SSSR,160 (1985).

12. A. V. Kim and G. M. Eraiman, “Nonlinear stage of ionization-superheat instability in a high pressure hf discharge,” Fiz. Plazmy,9, No. 3 (1983).

13. A. M. Volchek and A. P. Napartovich, “Self-similar solutions of systems of two parabolic equations,” Zh. Prikl. Mekh. Tekh. Fiz., No. 3 (1986).

14. G. T. Mayhan, R. L. Fante, et al., “Comparison of various microwave breakdown prediction models,” J. Appl. Phys.,42, No. 13 (1971).

15. G. Bateman and A. Erdelyi, Higher Transcendental Functions, McGraw-Hill (1953).

16. Ya. B. Zel'dovich and S. B. Pikel'ner, “Phase equilibrium and gas dynamics upon volume heating and cooling,” Zh. Eksp. Teor. Fiz.,56 No. 1 (1969).

17. J. Mitchell and D. W. MacGowan, “Experimental study of electron recombination,” in: F. Bruyer and J. MacGowan (eds.), Physics of Ion-Ion and Electron-Ion Collisions [Russian translation], Mir, Moscow (1986).

    Google Scholar 

18. V. L. Ginzburg, Electromagnetic Wave Propagation in a Plasma [in Russian], Nauka, Moscow (1967).

    Google Scholar 

19. N. L. Aleksandrov, F. I. Vysikailo, et al., “Calculation model of a discharge in an N₂∶0₂=4∶1 mixture,” Teplofiz. Vys. Temp.,19, No. 3 (1981).

20. F. I. Vysikailo and A. P. Napartovich, “Steady state one-dimensional model of a discharge in an electronegative gas,” Teplofiz. Vys. Temp.,19, No. 2 (1981).

21. N. D. Borisov, A. V. Gurevich, and G. M. Milikh, An Artificial Ionized Region in the Ionosphere [in Russian], IZMIRAN, Moscow (1986).

    Google Scholar 

22. N. A. Bogatov, S. V. Golubev, and V. G. Zorin, “Effect of detachment on ionization balance in a dependent uhf-discharge,” in: Materials of the II All-Union Seminar on Elementary Processes in Electronegative Gas Plasma [in Russian], Erevan (1984).

23. C. A. Blank, M. H. Bortner, T. Baurer, and A. A. Feryck, A Pocket Manual of the Physical and Chemical Characteristics of the Earth's Atmosphere DNA 346711, Washington (1974).

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