Evaluation of CHAMP radio occultation refractivity using data assimilation office analyses and radiosondes
Poli, P. ; Ao, C.-O. ; de la Torre Juárez, M. ; Joiner, J. ; Hajj, G.-A. ; Hoff, R.-M.
Année de publication
2003
The radio occultation experiment on the CHAMP satellite has been
collecting observations of the Earth's atmosphere since April 2001.
Previous work has shown that diffraction effects not accounted for by
geometrical optics processing can be partially corrected by
back-propagation and canonical transform methods, such as implemented at
the Jet Propulsion Laboratory. In the present paper we evaluate the
bias and standard deviation of refractivity differences between Data
Assimilation Office global analyses and observations processed by these
three methods. In the tropics at 25 km altitude, the refractivity
biases range between −2.5% and −0.5% for geometrical optics, between −1%
and 0.5% for back-propagation, and between −0.5% and 1.5% for canonical
transform. We also assess the methods by performing one-dimensional
variational temperature retrievals and comparing them with close
radiosondes. Our final conclusion is that canonical transform is a
better candidate than geometrical optics and back-propagation for
generating GPS radio occultation datasets for data assimilation.</div>
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