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Crewell, S., K. Ebell, U. Lohnert, and D. D. Turner (2009), Can liquid water profiles be retrieved from passive microwave zenith observations, Geophys. Res. Lett., 36, L06803, doi:10.1029/2008GL036934.
Decker, M. T., E. R. Westwater, and F. O. Guiraud (1978), Experimental Evaluation of Ground-Based Microwave Radiometric Sensing of Atmospheric Temperature and Water Vapor Profiles, J. Appl. Meteorol., 17(12), 1788–1795.
Hagen, M. and S. E. Yuter (2003), Relations between radar reflectivity, liquid-water content, and rainfall rate during the MAP SOP, Q. J. R. Meteorol. Soc., 129, 477–493, doi:10.1256/qj.02.23.
King, M. D., S. Platnick, P. Yang, G. T. Arnold, M. A. Gray, J. C. Riedi, S. A. Ackerman, and K. N. Liou (2004), Remote sensing of liquid water and ice cloud optical thickness and effective radius in the Arctic: Application of airborne multispectral MAS data, J. Atmos. Oceanic Technol., 21, 857–875.
Korolev, A. and P. R. Field (2007), The Effect of dynamics on Mixed-Phase cloud: Theoretical consideration, J. Atmos. Sci., 65, 66–85, doi:10.1175/2007JAS2355.1.
Kummerow, C. D., S. Ringerud, J. Crook, D. Randel, and W. Berg (2011), An Observationally Generated A Priori Database for Microwave Rainfall Retrievals, J. Atmos. Oceanic Technol., 28, doi:10.1175/2010JTECHA1468.1.
L'Ecuyer, T. S., P. Gabriel, K. Leesman, S. J. Cooper, and G. L. Stephens (2006), Objective Assessment of the Information Content of Visible and Infrared Radiance Measurements for Cloud Microphysical Property Retrievals over the Global Oceans. Part I: Liquid Clouds, J. Appl. Meteorol. Clim., 45, 20–41.
Li, J.-L. F., D. Waliser, C. Woods, J. Teixeira, J. Bacmeister, J. Chern, B.-W. Shen, A. Tompkins, W.-K. Tao, and M. Köhler (2008), Comparisons of satellites liquid water estimates to ECMWF and GMAO analyses, 20th century IPCC AR4 climate simulations, and GCM simulations, Geophys. Res. Lett., 35, L19710, doi:10.1029/2008GL035427.
Lin, B., P. Minnis, B. Wielicks, D. R. Doelling, R. Palikonda, D. F. Young, and T. Uttal (1998), Estimation of water cloud properties from satellite microwave, infrared and visible measurements in oceanic environments 2. Results, J. Geophys. Res., 103(D4), 3887–3905.
Lin, B., B. Wielicks, P. Minnis, and W. Rossow (1998), Estimation of water cloud properties from satellite microwave, infrared and visible measurements in oceanic environments 1. Microwave brightness temperature simulations, J. Geophys. Res., 103(D4), 3873–3886.
Masunaga, H. and C. D. Kummerow (2005), Combined Radar and Radiometer Analysis of Precipitation Profiles for a Parametric Retrieval Algorithm, J. Atmos. Oceanic Technol., 22, 909–929, doi:10.1175/JTECH1751.1.
Mattioli, V., P. Basili, S. Bonafoni, P. Ciotti, and E. R. Westwater (2009), Analysis and improvements of cloud models for propagation studies, Radio Sci., 44, RS2005, doi:10.1029/2008RS003876.
O'Neill, L. W., S. Wang, and Q. Jiang (2011), Satellite climatology of cloud liquid water path over the Southeast Pacific between 2002 and 2009, Atmos. Chem. Phys. Discuss., 11, 31159–31206, doi:10.5194/acpd-11-31159-2011.
Pulvirenti, L., N. Pierdicca, and F. S. Marzano (2005), Simulating Brightness Temperatures in Cloudy Conditions Over the Mediterranean Sea, In: Proceedings of the XXIXth General Assembly of International Union of Radio Science (URSI), New Delhi.
Rosenfeld, D. and I. M. Lensky (1998), Satellite-Based Insights into Precipitation Formation Processes in Continental and Maritime Convective Clouds, Bull. Amer. Met. Soc., 79(11), 2457–2476, doi:10.1175/1520-0477(1998)079<2457:SBIIPF>2.0.CO;2.
Zhang, S., H. Xue, and G. Feingold (2011), Vertical profiles of droplet effective radius in shallow convective clouds, Atmos. Chem. Phys., 11, 4633–4644, doi:10.5194/acp-11-4633-2011.