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An electrostatic wall probe in a flow of cool plasma

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Literature cited

  1. N. Stahl and C. H. Su, “Theory of continuum flush probes,” Phys. Fluids,14, No. 7 (1971).

  2. R. E. Kiel, “Electrostatic probe theory for free molecular cylinders,” AIAA J.,6, No. 4 (1968).

  3. C. S. Su and S. H. Lam, “Continuum theory of spherical electrostatic probes,” Phys. Fluids,6, No. 10 (1963).

  4. P. M. Chung, L. Talbot, and K. J. Touryan, “Electric probes in stationary and flowing plasmas. Part 2. Continuum probes,” AIAA J.,12, No. 2 (1974).

  5. B. Zauderer and E. Tate, “Electrical characteristics of a linear, nonequilibrium, MHD generator,” Proc. IEEE,56, No. 9 (1968).

  6. D. L. Thomas, “Continuum theory of cooled spherical electrostatic probes,” Phys. Fluids,12, No. 2 (1969).

  7. D. T. Shaw, “Behavior of relaxation plasmas near emitting surfaces,” Energy Convers.,11, No. 3 (1971).

  8. V. Yu. Baranov, D. D. Malyuta, and F. R. Ulinich, “Current transmission through boundary layers,” Teplofiz. Vys. Temp.,11, No. 3 (1973).

  9. G. A. Lyubimov and V. I. Mikhailov, “Analysis of the perturbation region near an electrode,” Izv. Akad. Nauk SSSR, Mekh. Zhidk. Gaza, No. 3 (1968).

  10. A. L. Genkin and A. D. Lebedev, “Diffusion of charged particles in a boundary layer on an electrode,” Magn. Gidrodin., No. 2 (1969).

  11. P. M. Chung and V. D. Blankenship, “Theory of electrostatic double probe comprised of two parallel plates,” AIAA J.,4, No. 4 (1966).

  12. R. E. Duff, “Laminar boundary layer. Development behind shock waves in argon,” Phys. Fluids,1, No. 6 (1958).

  13. E. K. Chekalin and L. V. Chernykh, “Electrophysical properties of temperature boundary layers at electrodes in a flow of conducting gas,” in: MHD and Electrophysical Characteristics of Conducting-Gas Flows [in Russian], Issue 8, Minenergo SSSR, Glavniiproekt, Moscow (1973).

    Google Scholar 

  14. E. K. Chekalin, L. V. Chernykh, M. A. Novgorodov, and N. V. Khandurov, “Determination of the electron concentration in a supersonic plasma flow by means of a wall electrostatic probe,” in: Proceedings of the All-Union Symposium on Aerophysical Research Methods [in Russian], Izd. ITPM Sib. Otd. Akad. Nauk SSSR, Novosibirsk (1976).

    Google Scholar 

  15. E. K. Chekalin, M. A. Novgorodov, and N. V. Khandurov, “Effects of electron-ion recombination in the boundary layer on the readings of an electrostatic probe,” Zh. Tekh. Fiz.,45, No. 7 (1975).

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Authors and Affiliations

  1. Moscow

    É. K. Chekalin & L. V. Chernykh

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  1. É. K. Chekalin
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  2. L. V. Chernykh
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Translated from Zhurnal Prikladnoi Mekhaniki i Tekhnicheskoi Fiziki, No. 1, pp. 41–47, January–February, 1981.

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Chekalin, É.K., Chernykh, L.V. An electrostatic wall probe in a flow of cool plasma. J Appl Mech Tech Phys 22, 32–38 (1981). https://doi.org/10.1007/BF00911567

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  • DOI: https://doi.org/10.1007/BF00911567

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