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  Remote sensing of refractivity from space for global observations of atmospheric parameters

Gorbunov, M. E., & Sokolovskiy, S. V. (1993). Remote sensing of refractivity from space for global observations of atmospheric parameters. Report / Max-Planck-Institut für Meteorologie, 119.

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 Creators:
Gorbunov, Michael E.1, Author
Sokolovskiy, Sergey V.1, Author
Affiliations:
1Russian Academy of Sciences Institute of Atmospheric Sciences, Pyzhevsky Perenlok 3 109017 Moscow Russia, ou_persistent22              

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 Abstract: Occultation methods based on effects connected with refraction of electromagnetic waves of both
optical and radio frequency domains were numerously used by astronomers for investigations of
planetary atmospheres during last decades. Application of these methods for remote sensing of
terrestrial atmosphere was delayed essentially due to insufficient possibilities of space based
technique to provide necessary accuracy and both temporal and spatial frequency of observations.
The successful development of Global Positioning Satellite Systems during the last years on one
hand, and plans for launching a great number of Low-Earth Orbit satellites, capable to carry GPS
receivers, during the next several years on the other hand, provide an opportunity to create a space
radio-occultation system for global observation of atmospheric parameters (pressure, temperature,
humidity) and their real-time assimilation together with other observations in Atmospheric General
Circulation Models. Among the set of problems connected with the development of such a system
is the creation of inversion algorithms that enable to achieve maximum possible accuracy of
retrieval of meteorological parameters from refraction data. This problem can be investigated by
means of computational simulation prior to the realization of the space system.
This report presents the first results of computational simulations on the retrieval of meteorological
parameters from space refractometric data on the basis of the ECHAM 3 model developed at the
Max Planck Institute for Meteorology (Roeckner et a1. 1992). For this purpose the grid fields of
temperature, geopotential and humidity available from the model were interpolated and a
continuous spatial field of refractivity (together with its first derivative) was generated. This field
was used for calculating the trajectories of electromagnetic rays for the given orbits of transmitting
and receiving satellites and for the determination of the quantities (incident angles or Doppler
frequency shifts) being measured at receiving satellite during occultation. These quantities were
then used for solving the inverse problem — retrieving the distribution of refractivity in the vicinity of the ray perigees. The retrieved refractivity was used to calculate pressure and temperature (using
the hydrostatic equation and the equation of state). The results were compared with initial data, and
the retrieval errors were evaluated. The study shows that the refractivity can be retrieved with very
high accuracy in particular if a tomographic reconstruction is applied. Effects of humidity and
temperature are not separable. Stratospheric temperatures globally and upper tropospheric
temperatures at middle and high latitudes can be accurately retrieved, other areas require humidity
data. Alternatively humidity data can be retrieved if the temperature fields are known.

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Language(s): eng - English
 Dates: 1993
 Publication Status: Issued
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 Rev. Type: Internal
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Title: Report / Max-Planck-Institut für Meteorologie
  Other : MPI Report
Source Genre: Series
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Publ. Info: Hamburg : Max-Planck-Institut für Meteorologie
Pages: - Volume / Issue: 119 Sequence Number: - Start / End Page: - Identifier: Other: 0937-1060
CoNE: https://pure.mpg.de/cone/journals/resource/0937-1060