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References

  • Eaton, F. D., and G. D. Nastrom (1998), Preliminary estimates of the vertical profiles of inner and outer scales from white sands missile range, new mexico, VHF radar observations, Radio Sci., 33, 895.
  • Facheris, L., and F. Cuccoli (2003), Analysis of differential spectral attenuation measurements applied to a LEO-LEO link, ESA-ACEPASS report (contract 16743/02/NL/FF), Inst. of Elect. and Telecommun., Univ. of Florence.
  • Fritts, D. C., and M. J. Alexander (2003), Gravity waves dynamics and effects in the middle atmosphere, Rev. Geophys., 41(1), 1003, doi:10.1029/2001RG000106.
  • Fritts, D. C., and T. E. VanZandt (1993), Spectral estimates of gravity wave energy and momentum fluxes. part 1: Energy dissipation, acceleration, and constrains, J. Atmos. Sci., 50, 36853694.
  • Fritts, D. C., T. Tsuda, T. Sato, S. Fukao, and S. Kato (1988), Observational evidence of a saturated gravity wave spectrum in the troposphere and lower stratosphere, J. Atmos. Sci., 45, 17411758.
  • Gorbunov, M. E. (2002), Canonical transform method for processing GPS radio occultation data in lower troposphere, Radio Sci., 37(5), 1076, doi:10.1029/2000RS002592.
  • Gorbunov, M. E., and G. Kirchengast (2005a), Advanced wave-optics processing of LEO-LEO radio occultation data in presence of turbulence, ESA/ESTEC Tech. Rep. 1/2005, Univ. of Graz, Austria.
  • Gorbunov, M. E., and G. Kirchengast (2005b), Processing X/K band radio occultation data in the presence of turbulence, Radio Sci., 40, RS6001, doi:10.1029/2005RS003263.
  • Gorbunov, M. E., and K. B. Lauritsen (2004), Analysis of wave fields by Fourier Integral Operators and its application for radio occultations, Radio Sci., 39, RS4010, doi:10.1029/2003RS002971.
  • Gorbunov, M. E., H.-H. Benzon, A. S. Jensen, M. S. Lohmann, and A. S. Nielsen (2004), Comparative analysis of radio occultation processing approaches based on Fourier integral operators, Radio Sci., 39, RS6004, doi:10.1029/2003RS002916.
  • Gurvich, A. S. (1984), Fluctuations during observations of extraterrestrial sources from space through the atmosphere of the Earth, Radiophys. Quantum Electron., 27, 665.
  • Gurvich, A. S. (1989), Scintillation spectra during observations of star obscurations by the Earth's atmosphere, Atmos. Opt., 2, 188.
  • Gurvich, A. S., and V. L. Brekhovskikh (2001), Study of the turbulence and inner waves in the stratosphere based on the observations of stellar scintillations from space: A model of scintillation spectra, Waves in Random Media, 11, 163181.
  • Gurvich, A. S., and I. P. Chunchuzov (2003), Parameters of the fine density structure in the stratosphere obtained from spacecraft observations of stellar scintillations, J. Geophys. Res., 108(D5), 4166, doi:10.1029/2002JD002281.
  • Gurvich, A. S., and I. P. Chunchuzov (2005), Estimates of characteristic scales in the spectrum of internal waves in the stratosphere obtained from space observations of stellar scintillations, J. Geophys. Res., 110, D03114, doi:10.1029/2004JD005199.
  • Jensen, A. S., M. S. Lohmann, H.-H. Benzon, and A. S. Nielsen (2003), Full spectrum inversion of radio occultation signals, Radio Sci., 38(3), 1040, doi:10.1029/2002RS002763.
  • Jensen, A. S., M. S. Lohmann, A. S. Nielsen, and H.-H. Benzon (2004), Geometrical optics phase matching of radio occultation signals, Radio Sci., 39, RS3009, doi:10.1029/2003RS002899.
  • Kan, V., S. S. Matyugov, and O. I. Yakovlev (2002), The structure of stratospheric irregularities according to radio-occultation data obtained using satellite-to-satellite paths, Izv. VUZ Radiofiz., (XLV), 652663.
  • Kirchengast, G., and P. Høeg (2004), The ACE+ mission: Atmosphere and climate explorer based on GNSS-LEO and LEO-LEO radio occultation, in Occultations for Probing Atmosphere and Climate, edited by G. Kirchengast, U. Foelsche, and A. K. Steiner, pp. 201220, Springer, Heidelberg.
  • Kirchengast, G., J. Fritzer, M. Schwaerz, S. Schweitzer, and L. Kornblueh (2004a), The atmosphere and climate explorer mission ACE+: Scientific algorithms and performance overview, ESA/ESTEC Tech. Rep. 2/2004, Inst. for Geophys., Astrophys., and Meteorol., Univ. of Graz, Austria.
  • Kirchengast, G., S. Schweitzer, J. Ramsauer, J. Fritzer, and M. Schwaerz (2004b), Atmospheric profiles retrieved from ACE+ LEO-LEO occultation data: Statistical performance analysis using geometric optics processing, ESA/ESTEC Tech. Rep. 1/2004, Inst. for Geophys., Astrophys., and Meteorol., Univ. of Graz, Austria.
  • Kursinski, E. R., S. Syndergaard, D. Flittner, D. Feng, G. Hajj, B. Herman, D. Ward, and T. Yunck (2002), A microwave occultation observing system optimized to characterize atmospheric water, temperature and geopotential via absorption, J. Atmos. Oceanic Technol., 19, 18971914.
  • Lohmann, M. S., A. S. Jensen, H.-H. Benzon, and A. S. Nielsen (2003a), Radio occultation retrieval of atmospheric absorption based on FSI, Sci. Rep. 03-20, Dan. Meteorol. Inst., Copenhagen.
  • Lohmann, M. S., L. Olsen, H.-H. Benzon, A. S. Nielsen, A. S. Jensen, and P. Høeg (2003b), Water vapour profiling using LEO-LEO inter-satellite links, in Proceedings of the Symposium “Atmospheric Remote Sensing Using Satellite Navigation Systems”, URSI section F/G, Matera, Italy.
  • Lüdi, A., and A. Magun (2002), Near-horizontal line-of-sight millimeter-wave propagation measurements for the determination of outer length scales and anisotropy of turbulent refractive index fluctuations in the lower troposphere, Radio Sci., 37(2), 1028, doi:10.1029/2001RS002493.
  • Rao, D. N., T. N. Rao, M. Venkataratnam, P. Srinivasulu, and P. B. Rao (2001), Diurnal and seasonal variability of turbulence parameters observed with Indian mesosphere-stratosphere-troposphere radar, Radio Sci., 36, 1439.
  • Rytov, S. M., Y. A. Kravtsov, and V. Tatarskii (1989), Principles of Statistical Radiophysics: Wave Propagation Through Random Media, vol. 4, Springer, New York.
  • Yakovlev, O. I., S. S. Matyugov, and I. A. Vilkov (1995), Attenuation and scintillation of radio waves in the Earth's atmosphere from radio occultation experiment on satellite-to-satellite links, Radio Sci., 30, 591602.
  • Yakovlev, O. I., S. S. Matyugov, and V. A. Anufriev (2003), Scintillations of centimeter waves and the atmospheric irregularities from radio occultation data, Radio Sci., 38(2), 1019, doi:10.1029/2000RS002546.