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  1. Minnis, P. and W. L. Smith Jr. (1998), Cloud and radiative fields derived from GOES-8 during SUCCESS and the ARM-UAV spring 1996 flight seriesGeophys. Res. Lett., 25(8), 1113–1116.
  2. Smith, W. L., W. P. Bishop, V. F. Dvorak, C. M. Hayden, J. H. McElroy, F. R. Mosher, V. J. Oliver, J. F. Purdom, and D. Q. Wark (1986), The Meteorological Satellite: Overview of 25 Years of OperationScience, 231(4737), 455–462.
  3. Soden, B. J. and F. P. Bretherton (1993), Upper Tropospheric Relative Humidity From the GOES 6.7 μm Channel: Method and Climatology for July 1987J. Geophys. Res., 98(D9), 16,669–16,688.
  4. Soden, B. J., S. A. Ackerman, D. O'C. Starr, S. H. Melfi, and R. A. Ferrare (1994), Comparison of upper tropospheric water vapor from GOES, Raman lidar, and cross-chain loran atmospheric sounding system measurementsJ. Geophys. Res., 99(D10), 21,005–21,016.
  5. Spangenberg, D. A., G. G. Mace, T. P. Ackerman, N. L. Seaman, and B. J. Soden (1997), Evaluation of model-simulated upper troposphere humidity using 6.7 μm satellite observationsJ. Geophys. Res., 102(D22), 25737–25749.
  6. Wimmers, A. J. and J. L Moody (2001), A fixed-layer estimation of upper tropospheric specific humidity from the GOES water vapor channel: Parameterization and validation of the altered brightness temperature productJ. Geophys. Res., 106(D15), 17,115–17,132.