INVESTIGATING THE IONOSPHERE RESPONSE TO EXHAUST PRODUCTS OF “PROGRESS” CARGO SPACECRAFT ENGINES ON THE BASIS OF IRKUTSK INCOHERENT SCATTER RADAR DATA
Аннотация и ключевые слова
Аннотация (русский):
The FSUE Central Research Institute of Machine Building (TsNIIMash), Rocket and Space Corporation “Energia”, and Institute of Solar-Terrestrial Physics of Siberian Branch of Russian Academy of Sciences (ISTP SB RAS) jointly conducted the active space experiment “Radar-Progress” in 2007–2015. During this experiment, we used the Irkutsk Incoherent Scatter Ra-dar to study space-time characteristics of ionospheric disturbances generated by exhaust products of “Pro-gress” cargo spacecraft engines. As the basic effect dur-ing exhaust product injection we consider the formation of new centers for recombination of ambient iono-spheric ions O+ on molecules of water and carbon diox-ide. This produces an ionization “hole” in the region of injection. In nighttime conditions when the majority of experiments were performed, this hole was filled by hydrogen ions from the plasmasphere, thus the ion composition in the vicinity of the hole and incoherent scatter spectra were changed. For successful obser-vation of the ionization hole dynamics, the critical fac-tors are the degree of radar antenna diagram filling by exhaust products and the velocity of the thermospheric neutral wind, which makes exhaust gases move from the antenna diagram. These two factors lead to poor repeatability of successful experiments. Successful experiments recorded a decrease in electron density up to 35 % in the hole that existed for 30 min. The lifetime of the region with high concentration of H+ ions can be as long as one hour.

Ключевые слова:
ionosphere, electron density, active space experiments, exhaust product injection into ionospheric plasma
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Список литературы

1. Bernhardt P.T., Huba J.D., Swartz W.E., Kelly M.C. Incoherent scatter from space shuttle and rocket engine plumps in the ionosphere. J. Geophys. Res. 1998, vol. 103, no. A2, pp. 2239–2251.

2. Bernhardt P.T., Huba J.D., Kudeki E., Woodman R.F., Condori L., Villanueva F. Lifetime of a depression in the plasma density over Jicamarca produced by space shuttle exhaust in the ionosphere. Radio Sci. 2001, vol. 36, no. 5, pp. 1209–1220.

3. Kazimirovsky E.S., Manson A.H., Meek C.E., Winds and waves in the middle atmosphere. J. Atmos. Terr. Phys. 1988, vol. 50, no. 3, pp. 243–250.

4. Khakhinov V.V., Potekhin A.P., Lebedev V.P., Med-vedev A.V., Kushnarev D.S., Shpynev B.G., Zarudnev V.E., Alsatkin S.S., Ratovsky K.G., Podlesny A.V., Bryn’ko I.G. Radiophysical methods of diagnostics of ionospheric disturbances generated by board engines of TCS "Progress": Algorithms, instruments and results. Rossiiskaya nauchnaya konferentsiya “Zondirovanie zemnykh pokrovov radarami s sintezirovannoi aperturoi” [National Scientific Conference “Sounding of earth surface by radars with synthetic aperture”]. Ulan-Ude, September 6–10, 2010: Proc. 2010, pp. 553–569. (In Russian). URL: http://jre.cplire.ru/jre/library/Ulan-Ude-2010/pdffiles/s2_35.pdf (accessed by November 17, 2017).

5. Khakhinov V.V., Potekhin A.P., Lebedev V.P., Alsatkin S.S., Ratovsky K.G., Kushnarev D.S., Tverdokhlebova E.M., Kurshakov M.Yu., Manzhelei A.I., Timofeeva N.I. Results of remote sounding of ionospheric disturbances in active space experiments "Radar-Progress". Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa [Current Problems in Remote Sensing of the Earth From Space]. 2012, vol. 9, no. 3, pp. 199–208. (In Russian).

6. Khakhinov V.V., Shpynev B.G., Lebedev V.P., Kushnarev D.S., Alsatkin S.S., Khabituev D.S. Radiosounding of ionospheric disturbances generated by exhaust streams of the transport spacecraft "Progress" engines. The 32nd Progress in Electromagnetics Research Symposium. Тhe Electromagnetics Academy Publ., 2012, pp. 1168–1171.

7. Khakhinov V.V., Potekhin A.P., Lebedev V.P., Kushnarev D.S., Alsatkin S.S. Some results of active space exper-iments "Plasma-Progress" and "Radar-Progress". Vestnik Sibirskogo gosudarstvennogo aerokosmicheskogo uni-versiteta imeni MF Reshetneva [Bull. of M.F. Reshetnev Siberian State Aerospace University]. 2013, special iss. 5 (51), pp. 160–163. (In Russian).

8. Krinberg I.A., Taschilin A.V. Ionosfera i plazmоsfera [Ionosphere and plasmasphere]. Moscow, Nauka Publ., 1984. 187 p. (In Russian).

9. Lebedev V.P., Gabdullin F.F., Khakhinov V.V., Korsun A.G., Tverdokhlebova E.M., Laletina E.A., Manzhelei A.I. Reseach into characteristics of plasma surrounding of low-orbit spacecraft by radio sounding methods. Kosmonavtika i raketostroenie [Cosmonautics and Rocket Engineering]. 2008, no. 1 (50), pp. 51–60. (In Russian).

10. Medvedev A.V., Zavorin A.V., Kushnarev D.S., Shpynev B.G. Modernization of hardware-software complex of Ir-kutsk Incoherent Scatter Radar. The basic elements of new multi-channel registration. Solnechno-zemnaya fizika [So-lar-Terrestrial Phys.]. 2004, iss. 5, pp. 107–110. (In Russian).

11. Platov Yu.V., Semenov A.I., Filipov B.P. Sublimation of ice particles in upper atmosphere conditions. Geomag-netizm i aeronomiya [Geomagnetism and Aeronomy]. 2004, vol. 44, no. 3, pp. 419–423. (In Russian).

12. Platov Yu.V., Semenov A.I., Filippov B.P. Sublimation of carbon dioxide ice particles in upper atmosphere condi-tions // Geomagnetizm i aeronomiya [Geomagnetism and Aeronomy]. 2005, vol. 45, no. 3, pp. 416–420. (In Rus-sian).

13. Potekhin A.P., Khakhinov V.V., Medvedev A.V., Kushnarev D.S., Lebedev V.A., Shpynev B.G. Active space ex-periments with the use of the transport spacecraft "Progress" and Irkutsk IS Radar. The 26tn Progress in Electro-magnetics Research Symposium. 2009, pp. 223–227.

14. Shpynev B.G. Incoherent scatter Faraday rotation measurements on a radar with single linear polarization. Radio Sci. 2004, vol. 39, no. 3, RS3001. DOI: 10.1029 / 2001RS002523.

15. Vergasova G.V., Kazimirovsky E.S. The large scale variation of dominant wind in lower thermosphere. Izvestiya AN. FAO. [Izvestiya. FAO]. 1994, vol. 30, no. 1, pp. 31–38. (In Russian).

16. Wu B.J.C. Possible water vap or condensation in rocket exhaust plume. American Institute of Aeronautics and As-tronautics J. 1975, vol. 13, no. 6, pp. 797–802.

17. Zherebtsov G.A., Zavorin A.V., Medvedev A.V., Nosov V.E., Potekhin A.P., Shpynev B.G. Irkutsk Incoherent Scatter Radar. Radiotekhnika i Elektronika [J. Communications Technology and Electronics]. 2002, vol. 47, no. 11, pp. 1339–1345. (In Russian).

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