Aarons, J. (1982), Global morphology of ionospheric scintillations, Proc. IEEE, 70, (4), 360.
Afraimovich, E. L. (2000), GPS global detection of the ionospheric response to solar flares, Radio Sci., 35, (6), 1417, doi:10.1029/2000RS002340. [CrossRef]
Afraimovich, E. L., and V. A. Karachentsev (2003), Testing of the transionospheric radiochannel using data from the global GPS network, Ann. Geophys., 46, (6), 1229.
Afraimovich, E. L., and N. P. Perevalova (2004), Modeling of total electron content measurements from the GPS radiointerferometer, in: Sol. Terr. Phys., 4 (in Russian), p. 71, Inst. of Sol. Terr. Phys. Russ. Acad. of Sci., Irkutsk.
Afraimovich, E. L., A. I. Terechov, M. Yu. Udodov, and S. V. Fridman (1992), Refraction distortions of transionospheric radio signals caused by changes in a regular ionosphere and by travelling ionospheric disturbances, J. Atmos. Terr. Phys., 54, (7/8), 1013, doi:10.1016/0021-9169(92)90068-V. [CrossRef]
Afraimovich, E. L., S. V. Fridman, and N. P. Minko (1994), Spectral and dispersion characteristics of medium-scale travelling ionospheric disturbances as deduced from transionospheric sounding data, J. Atmos. Sol. Terr. Phys., 56, (11), 1431, doi:10.1016/0021-9169(94)90109-0. [CrossRef]
Afraimovich, E. L., O. N. Boitman, E. I. Zhovty, A. D. Kalikhman, and T. G. Pirog (1999), Dynamics and anisotropy of traveling ionospheric disturbances as deduced from transionospheric sounding data, Radio Sci., 34, (2), 477, doi:10.1029/1998RS900004. [CrossRef]
Afraimovich, E. L., E. A. Kosogorov, L. A. Leonovich, K. S. Palamarchouk, N. P. Perevalova, and T. G. Pirog (2000), Determining parameters of large-scale travelling ionospheric disturbances of auroral origin using GPS-arrays, J. Atmos. Sol. Terr. Phys., 62, (7), 553, doi:10.1016/S1364-6826(00)00011-0. [CrossRef]
Afraimovich, E. L., E. A. Kosogorov, O. S. Lesyuta, A. F. Yakovets, and I. I. Ushakov (2001), Geomagnetic control of the spectrum of travelling ionospheric disturbances based on data from a global GPS network, Ann. Geophys., 19, (7), 723.
Bowman, G. G. (1990), A review of some recent work on midlatitude spread F occurrence as detected by ionosondes, J. Geomagn. Geoelectr., 42, 109.
Bowman, G. G. (1991), Nighttime mid-Latitude travelling ionospheric disturbances associated with mild spread F conditions, J. Geomagn. Geoelectr., 43, (8), 899.
Bowman, G. G. (1992), Upper atmosphere neutral-particle density variations compared with spread-F occurrence rates at locations around the world, Ann. Geophys., 10, 676.
Davies, K. (1980), Recent progress in satellite radio beacon studies with particular emphasis on the ATS 6 radio beacon experiment, Space Sci. Rev., 25, (4), 357, doi:10.1007/BF00241558. [CrossRef]
Davies, K., and G. K. Hartmann (1997), Studying the ionosphere with the Global Positioning System, Radio Sci., 32, (4), 1695, doi:10.1029/97RS00451. [CrossRef]
Foster, J. C., and W. Rideout (2005), Midlatitude TEC enhancements during the October 2003 superstorm, Geophys. Res. Lett., 32, L12S04, doi:10.1029/2004GL021719. [CrossRef]
Hernandez-Pajares, M., J. M. Juan, and J. Sanz (2006), Medium-scale traveling ionospheric disturbances affecting GPS measurements: Spatial and temporal analysis, J. Geophys. Res., 111, A07S11, doi:10.1029/2005JA011474. [CrossRef]
Hines, C. O. (1960), Internal atmospheric gravity waves at ionospheric heights, Can. J. Phys., 38, 1441.
Hocke, K., and K. Schlegel (1996), A review of atmospheric gravity waves and travelling ionospheric disturbances: 1982-1995, Ann. Geophys., 14, 917.
Hunsucker, R. (1982), Atomospheric gravity waves generated in the high-latitude ionosphere: A review, Rev. Geophys. Space Phys., 20, 293.
Jacobson, A. R., R. C. Carlos, R. S. Massey, and G. Wu (1995), Observations of travelling ionospheric disturbances with a satellite beacon radio interferometer: Seasonal and local time behavior, J. Geophys. Res., 100, 1653, doi:10.1029/94JA02663. [CrossRef]
Kelley, M. C., and C. A. Miller (1997), Electrodynamics of midlatitude spread F : 3. Electrohydrodynamic waves? A new look at the role of electric fields in thermospheric wave dynamics, J. Geophys. Res., 102, 11,539, doi:10.1029/96JA03841. [CrossRef]
Klobuchar, J. A. (1986), Ionospheric time-delay algorithm for single-frequency GPS users, IEEE Trans. Aerosp. Electron. Syst., 23, (3), 325, doi:10.1109/TAES.1987.310829. [CrossRef]
Kotake, N., Y. Otsuka, T. Tsugawa, T. Ogawa, and A. Saito (2006), Climatological study of GPS total electron content variations caused by medium-scale travelling ionospheric disturbances, J. Geophys. Res., 111, A04306, doi:10.1029/2005JA011418. [CrossRef]
Lawrence, R. S., C. G. Little, and J. A. Chivers (1964), The influence of the ionosphere upon radio wave propagation "Earth-space", Proc. IEEE, 52, (4), 5.
Mannucci, A. J., B. D. Wilson, D. N. Yuan, C. M. Ho, U. J. Lindqwister, and T. F. Runge (1998), A global mapping technique for GPS-derived ionospheric TEC measurements, Radio Sci., 33, 565, doi:10.1029/97RS02707. [CrossRef]
Oliver, W. L., Y. Otsuka, M. Sato, T. Takami, and S. Fukao (1997), Climatology of F region gravity waves propagation over the middle and upper atmosphere radar, J. Geophys. Res., 102, 14,449, doi:10.1029/97JA00491. [CrossRef]
Perkins, F. (1973), Spread F and ionospheric currents, J. Geophys. Res., 78, 218.
Spoelstra, T. A., and H. Kelder (1984), Effects produced by the ionosphere on radio interferometry, Radio Sci., 19, 779.
Yeh, K. C., and C. H. Liu (1982), Radio wave scintillations in the ionosphere, Proc. IEEE, 70, (4), 324.