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Dynamic and Thermal Processes in the Mid-Latitude Ionosphere over Kharkov, Ukraine (49.6° N, 36.3° E), During the 13-15 November 2012 Magnetic Storm: Calculation Results

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Języki publikacji
EN
Abstrakty
EN
Calculation results of the variations of dynamic and thermal process parameters in geospace plasma during the 13-15 November 2012, magnetic storm (MS) over Kharkov are presented. The calculations were based on experimental data obtained on the Kharkov incoherent scatter radar, single in the European mid-latitudes. Calculations showed that during the MS there took place an increase, by modulus, of the values of vertical component of transfer velocity, due to ambipolar diffusion, up to a factor of 1.4-2.1. During the MS there took place a decrease of the values of energy input to the electron gas by about 20-35%. During the main phase of MS, the heat flux density transferred by electrons increased up to a factor of 2-2.5. Results of estimates of the zonal component electric field value Ey are presented. During the MS the value of Ey was –9.5 mV/m. The vertical component of plasma velocity due to electromagnetic drift vEB has been calculated.
Czasopismo
Rocznik
Strony
2717--2733
Opis fizyczny
Bibliogr. 25 poz.
Twórcy
  • Institute of Ionosphere, Kharkov, Ukraine
Bibliografia
  • Blanc, M., and P. Amayenc (1979), Seasonal variations of the ionospheric E×B drift above Saint-Santin on quite days, J. Geophys. Res. 84, A6, 2691-2704, DOI: 10.1029/JA084iA06p02691.
  • Blanc, M., P. Amayenc, P. Bauer, and C. Taieb (1977), Electric field induced from the French incoherent scatter facilities, J. Geophys. Res. 82, 1, 87-97, DOI: 10.1029/JA082i001p00087.
  • Buonsanto, M.J. (1999), Ionospheric storms: A review, Space Sci. Rev. 88, 3-4, 563, DOI: 10.1023/A:1005107532631.
  • Buonsanto, M.J., S.A. Gonzalez, G. Lu, B.W. Reinisch, and J.P. Thayer (1999a), Coordinated incoherent scatter radar study of the January 1997 storm, J. Geophys. Res. 104, A11, 24625-24637, DOI: 10.1029/1999JA900358.
  • Buonsanto, M.J., S.A. Gonzalez, X. Pi, J.M. Ruohoniemi, M.P. Sulzer, W.E. Swartz, J.P. Thayer, and D.N. Yuan (1999b), Radar chain study of the May, 1995 storm, J. Atmos. Sol.-Terr. Phys. 61, 3-4, 233-248, DOI: 10.1016/S1364- 6826(98)00134-5.
  • Burmaka, V.P., and L.F. Chernogor (2012), Wave disturbances in the ionosphere during a lasting solar activity minimum, Geomagn. Aeron. 52, 2, 183-196, DOI: 10.1134/S001679321202003X.
  • Chernogor, L.F., Ye.I. Grigorenko, V.N. Lysenko, and V.I. Taran (2007), Dynamic processes in the ionosphere during magnetic storms from the Kharkov incoherent scatter radar observations, Int. J. Geomagn. Aeron. 7, GI3001, DOI: 10.1029/2005GI000125.
  • Domnin, I.F., L.Ya. Emelyanov, M.V. Lyashenko, and L.F. Chernogor (2014a), Partial solar eclipse of January 4, 2011 above Kharkiv: observation and simulation results, Geomagn. Aeron. 54, 5, 583-592, DOI: 10.1134/ S0016793214040112.
  • Domnin, I.F., L.Ya. Emelyanov, S.V. Katsko, and L.F. Chernogor (2014b), Ionospheric effects of geospace storm of November 13-14, 2012, Radio Phys. Radio Astron. 19, 2, 170-180 (in Russian).
  • Domnin, I.F., C. La Hoz, and M.V. Lyashenko (2014c), Variation of the electric field zonal component, the vertical component of the plasma drift and neutral wind velocities in ionosphere over Kharkov (Ukraine) during August 5- 6, 2011 and November 13-15, 2012 magnetic storms, Bull. Nation. Tech. Univ. “Kharkiv Polytechnic Institute”. Series: Radio Physics and Ionosphere 47, 15-21.
  • Emelyanov, L.Ya., and T.G. Zhivolup (2013), History of the development of IS radars and founding of the Institute of Ionosphere in Ukraine, Hist. Geo Space Sci. 4, 1, 7-17, DOI: 10.5194/hgss-4-7-2013.
  • Finlay, C.C., S. Maus, C.D. Beggan, T.N. Bondar, A. Chambodut, T.A. Chernova, A. Chulliat, V.P. Golovkov, B. Hamilton, M. Hamoudi, R. Holme, G. Hulot, W. Kuang, B. Langlais, V. Lesur, F.J. Lowes, H. Lühr, S. MacMillan, M. Mandea, S. McLean, C. Manoj, M. Menvielle, I. Michaelis, N. Olsen, J. Rauberg, M. Rother, T.J. Sabaka, A. Tangborn, L. Tøffner-Clausen, E. Thébault, A.W.P. Thomson, I. Wardinski, Z. Wei, and T.I. Zvereva (2010), International geomagnetic reference field: the eleventh generation, Geophys. J. Int. 183, 3, 1216-1230, DOI: 10.1111/ j.1365-246X.2010.04804.x.
  • Goncharenko, L.P., J.E. Salah, A. van Eyken, V. Howells, J.P. Thayer, V.I. Taran, B. Shpynev, Q. Zhou, and J. Chau (2005), Observations of the April 2002 geomagnetic storm by the global network of incoherent scatter radars, Ann. Geophys. 23, 1, 163-181.
  • Grigorenko, E.I., V.N. Lysenko, V.I. Taran, and L.F. Chernogor (2005a), Specific features of the ionospheric storm of March 20-23, 2003, Geomagn. Aeron. 45, 6, 745-757.
  • Grigorenko, E.I., S.A. Pazyura, V.I. Taran, L.F. Chernogor, and S.V. Chernyaev (2005b), Dynamic processes in the ionosphere during the severe magnetic storm of May 30-31, 2003, Geomagn. Aeron. 45, 6, 758-777.
  • Grigorenko, E.I., V.N. Lysenko, S.A. Pazyura, V.I. Taran, and L.F. Chernogor (2007), Ionospheric disturbances during the severe magnetic storm of November 7-10, 2004, Geomagn. Aeron. 47, 6, 720-738, DOI: 10.1134/ S0016793207060059.
  • Immel, T.J., G. Liu, S.L. England, L.P. Goncharenko, P.J. Erickson, M.V. Lyashenko, M. Milla, J. Chau, H.U. Frey, S.B. Mende, Q. Zhou, A. Stromme, and L.J. Paxton (2015), The August 2011 URSI World Day campaign: Initial results, J. Atmos. Sol.-Terr. Phys. 134, 47-55, DOI: 10.1016/j.jastp. 2015.09.005.
  • Lyashenko, M.V. (2013), The effects of the partial solar eclipse on January 4, 2011 in the variety of thermal process parameters in ionosphere, Sun Geosph. 8, 1, 15-18.
  • Lyashenko, M.V., and L.F. Chernogor (2013), Solar eclipse of August 1, 2008, above Kharkov: 3. Calculation results and discussion, Geomagn. Aeron. 53, 3, 367-376, DOI: 10.1137/S0016793213020096.
  • Ogawa, T., Y. Tanaka, A. Huzita, and M. Yasuhara (1975), Horizontal electric fields in the middle latitude, Planet. Space Sci. 23, 5, 825-830, DOI: 10.1016/ 0032-0633(75)90019-7.
  • Picone, J.M., A.E. Hedin, D.P. Drob, and A.C. Aikin (2002), NRLMSISE-00 empirical model of the atmosphere: statistical comparisons and scientific issues, J. Geophys. Res. 107, А12, 1468-1483, DOI: 10.1029/ 2002JA009430.
  • Richmond, A.D., M. Blanc, B.A. Emery, R.H. Wand, B.G. Fejer, R.F. Woodman, S. Ganguly, P. Amayenc, R.A. Behnke, C. Calderon, and J.V. Evans (1980), An empirical model of quite-day ionospheric electric fields at middle and low latitudes, J. Geophys. Res. 85, A9, 4658-4664, DOI: 10.1029/JA085iA09p04658.
  • Schunk, R.W., and A.F. Nagy (2000), Ionospheres: Physics, Plasma Physics, and Chemistry, Cambridge Atmospheric and Space Science Series, Cambridge University Press, New York, 555 pp.
  • Sergeenko, N.P. (1982), Estimates of electric fields during ionospheric disturbances. In: R.A. Zevakina, and N.P. Sergeenko (eds.), Ionospheric Forecasting, Nauka, Moscow, 91-96 (in Russian).
  • Stubbe, P. (1968), Frictional forces and collision frequencies between moving ion and neutral gases, J. Atmos. Terr. Phys. 30, 12, 1965-1985, DOI: 10.1016/ 0021-9169(68)90004-4.
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Bibliografia
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