ISSN 0021-3454 (print version)
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11
Issue
vol 67 / November, 2024
Article

DOI 10.17586/0021-3454-2016-59-10-847-859

UDC 629.78

THE SYSTEM OF THREE-DIMENSIONAL TOMOGRAPHIC DIAGNOSTICS OF PARAMETERS OF PLASMA FORMATIONS IN THE NEAR-EARTH SPACE

O. V. Filonin
SSAU, Department of Space Exploration; Professor


M. A. Petrov
Samara University, Department of Physics; Post-Graduate Student


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Abstract. Methods and means of a few-systems three-dimensional tomographic diagnostics of parameters of plasma formation induced in the high-frequency electromagnetic fields in the Near-Earth space are described. Basic parameters of pulsed high-voltage power supply unit used for generating the required electromagnetic field are presented. A display option for luminous intensity distribution as a set of isoparametric surfaces is proposed. A and a developed and A compact three-dimensional tomographic system to be installed on a nanosatellite as well as a ground-based system are developed to study the plasma formations.
Keywords: low-angle tomography, nanosatellites, convolution method, Fourier transforms, optоelectronic systems, electroluminescence, gas discharge

References:
  1. Shustov M.A., Protasevich E.T. Elektrorazryadnaya fotografiya (Discharge Photo), Tomsk, 1999, 244 p. (in Russ.)
  2. Korotkov K.G. Razrabotka nauchnykh osnov i prakticheskaya realizatsiya biotekhnicheskikh izmeritel'no-vychislitel'nykh sistem analiza gazorazryadnogo svecheniya, indutsirovannogo ob"ektami biologicheskoy prirody (Development of Scientific Bases and Practical Implementation of Biotechnical Measuring-Computing Systems of the Analysis of Gas Discharge Glow, Induced by Biological Objects of Nature), Extended abstract of Doctor’s thesis, St. Petersburg, 1999. (in Russ.)
  3. Vlasov Yu.A., Udler E.I., Tishchenko N.T., Sarkisov Yu.S. Diagnostika agregatov mashin metodom vysokovol'tnogo tleyushchego razryada (Diagnostics of Units of Cars by Method of the High-Voltage Smoldering Category), Tomsk, 2013, 198 p. (in Russ.)
  4. Adamenko V.G. Issledovanie mekhanizma formirovaniya izobrazheniy, poluchennykh s pomoshch'yu vysokochastotnogo elektricheskogo razryada (Research of the Mechanism of Formation of the Images Received by Means of High-Frequency Electric Discharge), Extended abstract of candidate’s thesis, Minsk, 1975. (in Russ.)
  5. Pikalov V.V., Preobrazhenskiy N.G. Rekonstruktivnaya tomografiya v gazodinamike i fizike plazmy (Reconstructive Tomography in Gas Dynamics and Physics of Plasma), Novosibirsk, 1987, 230 p. (in Russ.)
  6. Filonin O.V. Engineering Physics, 2006, no. 5, pp. 4–14. (in Russ.)
  7. Filonin O.V. Malorakursnaya tomografiya (Only a Few Projections Tomography), Samara, 2006, 256 p. (in Russ.)
  8. Lavrent'ev M.M., Romanov V.G., Shishatskiy S.P. Nekorrektnye zadachi matematicheskoy fiziki i analiza (Incorrect Problems of Mathematical Physics and Analysis), Novosibirsk, 1985, 367 p. (in Russ.)
  9. Filonin O.V., Petrov M.A. Uspekhi Prikladnoi Fiziki (Advances in Applied Physics), 2013, no. 3(1), pp. 296–306. (in Russ
  10. Mack R.A. Demystifying switching power supplies, Elsevier Science, 2005, 344 р.
  11. Horowitz P. and Hill W. The Art of Electronics, vol. 1, Second Edition, Cambridge University Press, 1989.
  12. Filonin O.V. Obshchiy kurs komp'yuternoy tomografii (General Course of a Computer Tomography), Samara, 2012, 407 p. (in Russ.)