Open Access
Issue
J. Space Weather Space Clim.
Volume 3, 2013
Article Number A30
Number of page(s) 28
DOI https://doi.org/10.1051/swsc/2013052
Published online 15 October 2013
  • Adushkin, V.V., and K.I. Gorelyi, The response of the ionospheric F-region to atmospheric nuclear explosions, Dynamic Processes in Geospheres, Geophysics of Strong Disturbances. Collected Scientific Transactions (in Russian), Moscow, 239–248, 1994.
  • Afraimovich, E.L., S.V. Voyenkov, K.G. Ratovsky, and P.V. Tatarinov, GPS-detection of the single internal gravitational waves generated during powerful magnetic storms. In: Trudy 21 vserossiiskoi nauchnoi konferentsi po rasprostraneniyu radiovoln (Proc. 21th All-Russia Sci. Conference on Radiowave Propagation), Ioshkar Ola, 1, 124–128, 2005.
  • Albee, P.R., and D.P. Kanellakos, A spatial model of the F-region ionospheric traveling disturbance following a low-altitude nuclear explosion, J. Geophys. Res., 73 (3), 1039–1053, 1968. [CrossRef]
  • Breitling, W.J., and R.A. Kupferman, Traveling ionospheric disturbances associated with nuclear detonations, J. Geophys. Res., 72 (1), 307–315, 1967. [CrossRef]
  • Bristow, W.A., R.A. Greenwald, and J.C. Samson, Identification of high-latitude acoustic gravity wave sources using the Goose Bay HF radar, J. Geophys. Res., 99 (A1), 319–331, 1994. [CrossRef]
  • Bullough, R.K., and P.J. Caudrey, Solitons, Springer-Verlag, Berlin, Heidelberg, New York, 1980. [CrossRef]
  • Cole, J.D., and C. Greifinger, Acoustic-gravity waves from an energy source at the ground in the isothermal atmosphere, J. Geophys. Res., 74 (14), 3693–3703, 1969. [CrossRef]
  • Deminov, M.G., A.T. Karpachev, V.V. Afonin, and J. Shmilauer, Change of a position of the main ionospheric trough depending on a longitude and geomagnetic activity, Geomagn. Aeron., 32 (5), 185–188, 1992.
  • Dorohov, V.L., V.G. Somov, V.N. Fedorenko, and Yu.P. Fedorenko, Diagnostics of medium scale traveling ionospheric disturbances using radio sounding of the ionosphere by signals from low-orbiting navigation satellites, Visn. KharkivKarazin Nat. Univ., Ser.: Radiofiz. Elektron. (in Russian), 2 (646), 224–229, 2004.
  • Evans, J.V., J.M. Holt, and R.H. Wand, A differential doppler study of traveling ionospheric disturbances from Millstone Hill, Radio Sci., 18 (3), 435–451, 1983. [CrossRef]
  • Fedorenko, V.N., Yu.P. Fedorenko, and I.I. Shagimuratov, Results of the ionosphere study by means of diversity reception of radio signals of low-orbiting navigation satellites, Geomagn. Aeron., 37 (3), 346–349, 1997.
  • Fedorenko, Yu.P., O.F. Tyrnov, and V.N. Fedorenko, Parametres of empirical model of traveling ionospheric disturbances, Elektromagnitnye volny i elektronnye sistemy, 13, 21–46, 2008.
  • Fedorenko, Yu.P., O.F. Tyrnov, and V.N. Fedorenko, Parameters of traveling ionospheric disturbances estimated from satellite beacon observations in low Earth orbit, Geomagn. Aeron., 50, 489–503, 2010a. [CrossRef]
  • Fedorenko, Yu.P., V.N. Fedorenko, and V.L. Dorohov, Front inclination in a vertical plane of Medium-Scale Traveling Ionospheric Disturbances and an effective thickness of a layer of their detection, Visn. Kharkiv Karazin Nat. Univ., Ser.: Radiofiz. Elektron., (in Russian), 17 (927), 109–120, 2010b.
  • Fedorenko, Yu.P., V.N. Fedorenko, and V.N. Lysenko, Parameters of the medium-scale traveling ionospheric disturbances model deduced from measurements, Geomagn. Aeron., 51 (1), 88–104, 2011. [CrossRef]
  • Fedorenko, Yu.P., V.N. Fedorenko, and V.L. Dorohov, Diagnostics of parametres of large-scale traveling ionospheric disturbances with the help radioscopy ionosphere by signals low-orbital navigating satellites, Visn. Kharkiv Karazin Nat. Univ., Ser.: Radiofiz. Elektron., (in Russian), 20 (1010), 97–112, 2012.
  • Francis, S.H., A theory of medium-scale traveling ionospheric disturbances, J. Geophys. Res., 79 (34), 5245–5260, 1974. [CrossRef]
  • Francis, S.H., Global propagation of atmospheric gravity waves: A review, J. Atmos. Terr. Phys., 37 (6–7), 1011–1054, 1975. [CrossRef]
  • Gossard, E.E., and W.H. Hooke, Waves in the Atmosphere, Elsevier, Amsterdam, Netherlands, 456 p., 1975.
  • Halperin, Yu.I., L.D. Sivtseva, V.M. Filippov, and V.L. Khalipov, The Sub-Auroral Upper Ionosphere, Nauka, Novosybyrsk (in Russian), 191, 1990.
  • Heisler, L.H., Anomalies in ionosonde records due to traveling ionospheric disturbances, Aust. J. Phis., 11, 79–90, 1958. [CrossRef]
  • Hocke, K., and K. Schlegel, A review of atmospheric gravity waves and traveling ionospheric disturbances: 1982–1995, Ann. Geophys., 14, 917–940, 1996.
  • Igarashi, K., S. Kainuma, I. Nishimuta, S. Okamoto, H. Kuroiwa, T. Tanaka, and T. Ogawa, Ionospheric and atmospheric disturbances around Japan caused by the eruption of Mount Pinatubo on 15 June 1991, J. Atmos. Terr. Phys., 56 (9), 1227–1234, 1994. [CrossRef]
  • Iyer, K.N., Effect of traveling ionospheric disturbances on HF phase-path measurements, Indian J. Radio Space Phys., 12, 47–49, 1983.
  • Kanellakos, D.P., Response of the ionosphere to the passage of acoustic-gravity waves generated be low-altitude nuclear explosions, J. Geophys. Res., 72 (17), 4559–4576, 1967. [CrossRef]
  • Karpachev, A.T., N. Beloff, T.D. Carozzi, P.F. Denisenko, T.J.T. Karhunem, and M. Lester, Detection of large scale TIDs associated with the dayside cusp using SuperDARN Data, J. Atmos. Sol. Terr. Phys., 72 (9–10), 653–661, 2010. [CrossRef]
  • Köhnlein, W., and W.J. Raitt, Position of the mid-latitude trough in the topside ionosphere as deduced from ESPO 4 observations, Planet. Space Sci., 25, 600–602, 1977. [CrossRef]
  • Kotake, N., Y. Otsuka, T. Ogawa, T. Tsugawa, and A. Saito, Statistical study of medium-scale traveling ionospheric disturbances observed with the GPS networks in Southern California, Earth Planets Space, 59, 95–102, 2007.
  • Kunitsyn, W.E., S.N. Suraev, and R.R. Akhmedov, Modeling propagation of acoustic gravity waves in the atmosphere for different surface sources, Vestn. Mosk. Univ., Sert. 3. Fiz. Astron., 2, 59–63, 2007.
  • Liu, C.H., and K.C. Yeh, Exciting of acoustic-gravity waves in an isothermal atmosphere, Tellus, 23, 150–163, 1971. [CrossRef]
  • Lomax, J.B., and D.L. Nielson, Observation of acoustic-gravity wave effects showing geomagnetic field dependence, J. Atmos. Terr. Phys., 30, 1033–1050, 1968. [CrossRef]
  • Lonngren, K., and A. Scott, Soliton in Actions, Academic Press, New York, San Francisco-London, 1978.
  • Munro, G.H., Short-period changes in the F region of the ionosphere, Nature, 162, 886–887, 1948. [CrossRef]
  • Obayashi, T., Widespread ionospheric disturbances due to nuclear explosions during October 1961, Nature, 196 (4849), 24–27, 1962. [CrossRef]
  • Ogawa, T., K. Igarashi, K. Aikyo, and H. Maeno, Satellite observation of medium scale traveling ionospheric disturbances over Syowa Station, Proc NIPR Symposium Upper Atmosphere, 1, 192–198, 1988.
  • Otsuka, Y., K. Suzuki, S. Nakagawa, M. Nishioka, K. Shiokawa, and T. Tsugawa, GPS observations of medium-scale traveling ionospheric disturbances over Europe, Ann. Geophys., 31, 163–172, 2013. [CrossRef]
  • Roberts, D.H., J.A. Klobuchar, P.F. Fougere, and D.H. Hendrickson, A large-amplitude traveling ionospheric disturbance produced by the May 18, 1980, explosion of Mount St. Helens, J. Geophys. Res., 87, 6291–6301, 1982a. [CrossRef]
  • Roberts, D.H., A.E.E. Rogers, B.R. Allen, C.L. Bennett, B.F. Bukker, P.E. Greenfield, C.R. Lawrence, and T.A. Clark, Radio interferometric detection of a traveling ionospheric disturbance excited by Explosion of Mount St. Helens, J. Geophys. Res., 87 (A8), 6302–6306, 1982b. [CrossRef]
  • Row, R.V., Acoustic-gravity waves in the upper atmosphere due to a nuclear detonation and an earthquake, J. Geophys. Res., 72 (5), 1599–1610, 1967. [CrossRef]
  • RTO Technical Report TR-IST-051, Characterising the Ionosphere. Final Report of Task Group IST-051, Published January 2009. 1.1.1.2 (Hawlitschka Stefan). 1.3.8 (Prikryl Paul).
  • Senior, A., M.J. Kosch, T.K. Yeoman, M.T. Rietveld, and I.W. McCrea, Effects of high latitude atmospheric gravity wave disturbances on artificial HF radar backscatter, Ann. Geophys., 24, 2347–2361, 2006. [CrossRef]
  • Shashunkina, V.M., Ionospheric effect of the sudden beginning of a magnetic storm on July, 15th, 1959, Geomagn. Aeron. (in Russian), 6 (1), 146–149, 1966.
  • Shashunkina, V.M., Study of planetary ionospheric effect of the sudden beginning of a magnetic storm, Ionosf. Issled. (in Russian), 16, 91–96, 1968a.
  • Shashunkina, V.M., Variations of ionospheric parametres during effect SC depending on solar and magnetic activity according to the Lindau-data, Geomagn. Aeron. (in Russian), 8 (2), 352–354, 1968b.
  • Shashunkina, V.M., Results of study of ionospheric effect of the sudden beginning of a magnetic storm, Ionosf. Issled. (in Russian), 20, 154–165, 1972.
  • Song, Q., F. Ding, W.X. Wan, L.B. Liu, and B.Q. Ning, Monitoring nighttime medium-scale traveling ionospheric disturbances using the GPS network over North America, J. Geophys., 54, 162–168, 2011.
  • Taran, V.I., Yu.I. Pod’yachii, V.I. Golovin, V.I. Vashchenko, and I.D. Arkad’ev, Traveling ionospheric disturbances detected using the incoherent scatter method, Ionos. Issled., 27, 102–110, 1979.
  • Taran, V.I., Yu.I. Pod’yachii, A.N. Smirnov, and L.J. Gerstein, Disturbances of the ionosphere after a ground level burst on supervision by a method of incoherent scatter, Izvest. akadem. nauk SSSR, Phisica Zemly (in Russian), 11, 75–79, 1985.
  • Tsugawa, T., N. Kotake, Y. Otsuka, and A. Saito, Medium-scale traveling ionospheric disturbances observed by GPS receiver network in Japan, A short review GPS Solutions, 11 (2), 139–144, DOI: 10.1007/s10291-006-0045-5 Key: citeulike:1207528, 2007a. [CrossRef]
  • Tsugawa, T., Y. Otsuka, A.J. Coster, and A. Saito, New characteristics of medium-scale traveling ionospheric disturbances detected with dense wide-coverage TEC maps over North America, Geophys.Res. Lett., 34, 22–101, DOI: 10.1029/2007GL031663, 2007b. [CrossRef]
  • Tyrnov, O.F., Yu.P. Fedorenko, and L.F. Chernogor, Studying wave-like disturbances of electron density using radio sounding of the ionosphere by coherent signals of navigation satellites, Usp. Sovrem. Radioelektron., 1, 36–80, 2005.
  • Vadas, S.L., and G. Crowley, Sources of the traveling ionospheric disturbaces observed by the ionospheric TIDDBIT sounder near Wallops Island on 30 October 2007, J. Geophys. Res., 115 (A07324), 1–24, 2010. [CrossRef]
  • Vlasov, A., K. Kauristie, M. van de Kamp, J.-P. Luntama, and A. Pogoreltsev, A study of traveling ionospheric disturbances and atmospheric gravity waves using EISCAT Svalbard Radar IPY-data, Ann. Geophys., 29, 2101–2116, 2011. [CrossRef]
  • Wexler, H., and W.A. Hass, Global atmospheric pressure effects of the October 30, 1961, explosion, J. Geophys. Res., 67 (10), 3875–3879, 1962. [CrossRef]
  • Yakovets, A.F., V.V. Vodyannikov, G.I. Gordienko, J.F. Ashkaliev, Yu.G. Litvinov, and S.B. Akasov, The response of a night middle-latitude ionosphere to passage of an atmospheric gravitational wave, Geomagn. Aeron., 48 (4), 534–541, 2008. [CrossRef]
  • Yeh, K.C., and C.H. Liu, Acoustic-gravity waves in the upper atmosphere, Rev. Geophys. Space Phys., 12 (2), 193–616, 1974. [CrossRef]

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