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  1. Boudala, F. S., G. A. Isaac, Q. Fu, and S. G. Cober (2002), Parameterization of effective ice particle size for high-latitude cloudsInt. J. Climatol., 22(10), 1267–1284.
  2. Charlton, J., M. L. Jarrett, M. E. Humphries, R. K. Child, N. L. Atkinson, T. J. Hewison, A. Slingo, D. A. V. Spilling, J. M. Higgins, M. A. Bray, P. R. Foster, and D. N. Matheson. (2002), Study on Future Microwave and Millimetre-wave Radiometer Requirements and Concepts, Final Report, ESTEC Contract No 14841/01/NL/MM.
  3. Charlton, J., B. Moyna, C. Lee, and E. Defer (2010), Study of a Sub-millimetre Wave Airborne Demonstrator for Observations of Precipitation and Ice Clouds, Final Report, ESTEC Contract No. 20927/07/NL/JA.
  4. Doms, G. and U. Schaettler (1999), The nonhydrostatic Limited-Area Model LM (Lokal-Modell) of DWD. Part I: Scientific Documentation. DWD, GB Forschung und Entwicklung, DWD.
  5. Golding, B. W. and N. C. Atkinson (2002), Study of Future Microwave Sounders on Geostationary and Medium Earth Orbits. Task 1 Report: Review of Preliminary List of Products and Corresponding Requirements, ESA study STN/PR72/002, MGO-MET-RP-001.
  6. Hinsman, D. (2002), Manual of the CEOS/WMO Database on User Requirements and In Situ and Space Capabilities, World Meteorological Organization, Issue 1.5.
  7. Hinsman, D. (2003), Satellite Systems and Requirements, CEOS/WMO database, Version 2.5, World Meteorological Organization, http://alto-stratus.wmo.ch/sat/stations/SatSystem.html.
  8. Lohmann, U. and E. Roeckner (1996), Design and performance of a new microphysics schemen developed for the ECHAM general circulation modelClimate Dynamics, 12, 557–572.
  9. Baptista, J. P. V. Poiares and W. Leibrandt (2001), EarthCARE – Earth Clouds, Aerosols and Radiation Explorer. Assessment Report, ESA SP-1257(1), ESA.
  10. Reinhardt, T. and U. Wacker (2004), Impact of ice particle habits on simulated cloudsGeophys. Res. Lett., 31, L21106, doi:1029/2004GL021134.
  11. Roeckner, E., et al. (2003), The atmospheric general circulation model ECHAM5. Part I: model description. 127pp., MPI Hamburg.
  12. Stocker, T., et al. (2001), IPCC Third assessment Report - climate change 2001: The Scientific Basis, chap. Physical Climate Processes and FeedbackWMO.
  13. Stubenrauch, C. (2004), Cirrus microphysical properties and their effect on Radiation: survey and integration into climate Models using combined Satellite observations, Laboratoire de Meteorologie Dynamique, Meteorological Office, Institute for Marine Research at Kiel, Laboratoire d'Optique Atmospherique, Final Report on the Environment project EVK2-CT-2000-00063, available at http://www.lmd.polytechnique.fr/CIRAMOSA/Welcome.html.
  14. Stubenrauch, C. J., F. Eddounia, and G. Rädel (2004), Correlations between microphysical properties of large-scale semi-transparent cirrus and the state of the atmosphereAtmos. Res., 72, 403–423.
  15. Sun, Z. and K. P. Shine (1994), Studies of the radiative properties on ice and mixed-phase cloudsQ. J. R. Meteorol. Soc., 120, 111–137.
  16. Wilson, D. (2000), The impact of a physically based microphysical scheme on the climate simulation of The Meteorological Office Unified ModelQ. J. R. Meteorol. Soc., 126, 1281–1300.