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Francisco Valero
Organization:
Scripps Institution of Oceanography
Business Address:
La Jolla, CA
United StatesFirst Author Publications:
- Valero, F., A. Marshak, and P. Minnis (2021), Lagrange Point Missions: The Key to next Generation Integrated Earth Observations. DSCOVR Innovation, DSCOVR Innovation. Front. Remote Sens., 2, 745938, doi:10.3389/frsen.2021.745938.
- Valero, F., et al. (1997), Atmospheric Radiation Measurements Enhanced Shortwave Experiment (ARESE): Experimental and data details, J. Geophys. Res., 102, D25.
- Valero, F., et al. (1996), Determination of clear sky radiative flux profiles, heating rates, and optical depths using unmanned aerospace vehicles as a platform, J. Atmos. and Ocean Technology, 13, 1024-1030.
- Valero, F., et al. (1993), Airborne Brightness Temperature Measurements of the Polar Winter Troposphere as Part of the Airborne Stratospheric Experiment II and the Effect of Brightness Temperature Variations on the Diabatic Heating in the Lower Stratosphere, Geophys. Res. Lett., 20, 2575-2578.
- Valero, F., and P. Pilewskie (1992), Latitudinal Survey of Spectral Optical Depths of the Pinatubo Volcanic Cloud-Derived Particle Sizes, Columnar Mass Loadings and Effects on Planetary Albedo, Geophys. Res. Lett., 19, 163.
- Valero, F., and P. Pilewskie (1991), Radiative Effects of the Pinatubo Volcanic Cloud--Spectral Optical Depth, Albedo Changes and Particle Sizes, Geophys. Res. Lett..
- Valero, F., T. P. Ackerman, and W. Gore (1989), The Effects of the Arctic Haze as Determined from Airborne Radiometric Measurements During AGASP II, Journal of Atmospheric Chemistry, 9, 225.
Co-Authored Publications:
- Su, W., et al. (2020), Determining the daytime Earth radiative flux from National Institute of Standards and Technology Advanced Radiometer (NISTAR) measurements, Atmos. Meas. Tech., 13, 429-443, doi:10.5194/amt-13-429-2020.
- Su, W., et al. (2018), Determining the Shortwave Radiative Flux From Earth Polychromatic Imaging Camera, J. Geophys. Res., 123, 11,479-11,491, doi:10.1029/2018JD029390.
- Garrett, T., et al. (2005), Evolution of a Florida Cirrus Anvil, J. Atmos. Sci., 62, 2352-2372.
- Curry, J. A., et al. (2000), FIRE Arctic clouds experiment., Bulletin of the American Meteorlogical Society, 81, 5.
- Stephens, G., et al. (2000), The Department of Energy’s Atmospheric Radiation Measurement (ARM) Unmanned Aerospace Vehicle (UAV) Program, Bulletin of the American Meteorlogical Society, 81, 2915.
- Clark, A. D., et al. (1996), "Vertical profiles, aerosol microphysics and optical closure during ASTEX: Measured and modeled column optical properties, J. Geophys. Res., 101, 4443-4453.
- Collins, W. D., et al. (1996), Radiative effects of convection in the tropical Pacific, J. of Clim., 101, 14,999-15.
- Lubin, D., et al. (1996), Microphysical examination of excess cloud absorption in the tropical atmosphere, J. Geophys. Res., D12, 16,961-16.
- Pilewskie, P., and F. Valero (1996), Response to: How much solar radiation do clouds absorb?, Science, 271, 1131-1134.
- Pilewskie, P., and F. Valero (1995), Direct Observation of Excess Solar Absorption by Clouds, Science, 267, 1626.
- Hammer, P. D., F. Valero, and W. H. Smith (1994), Spectral Imaging of Clouds Using a Digital Array Scanned Interferometer, Atmos. Res., 34, 347-366.
- Pilewskie, P., and F. Valero (1993), Optical Depths and Haze Particle During AGASP III, Atmos. Environ., 27A, 2895-2899.
- Toon, B., et al. (1993), Heterogeneous Reaction Probabilities, Solubilities, and the Physical State of Cold Volcanic Aerosols, Science, 261, 1136-1140.
- Wong, T., et al. (1993), The Radiative Budgets of a Tropical Mesoscale Convective System During EMEX-STEP-AMEX Experiment I: Observations, Jour. Geoph. Res., 98, 8683—8695.
- Wong, T., et al. (1993), The radiative budgets of a tropical mesoscale convective system during the EMEX-STEP-AMEX experiment: 2 model results, J. Geophys. Res., 98, 8695-8711 (manuscript in preparation).
- Wong, T., et al. (1993), The Radiative Budgets of a Tropical Mesoscale Convective System During EMEX-STEP-AMEX Experiment I: Observations, Jour. Geoph. Res., 98, 8683—8695.
- Kinne, S., et al. (1992), Cirrus Microphysics and Radiative Transfer: Cloud Field Study on 28 October 1986, 661 (manuscript in preparation).
- Pilewskie, P., and F. Valero (1992), Radiative Effects of the Smoke from the Kuwait Oil Fires, J. Geophys. Res., 97, 14,541.
- Hammer, P. D., et al. (1991), Remote Sensing of Earth's Atmosphere and Surface Using a Digital Array Scanned Interferometer--A New Type of Imaging Spectrometer, J. Imaging Sci. In press.
- Hammer, P. D., F. Valero, and S. Kinne (1991), The 27-28 October 1986 FIRE Cirrus Case Study: Retrieval of Cloud Particle Sizes and Optical Depths from Comparative Analyses of Aircraft and Satellite Based Infrared Measurements, Mo. Weather Rev., 119, 1673 (manuscript in preparation).
- Wong, T., et al. (1991), A Comparison of Cloud Radiation Fields Obtained by In situ Aircraft Measurements and a Numerical Simulation of a Tropical Mesoscale Convective System, J. Geophys. Res., In press.
- Hammer, P. D., F. Valero, and S. Kinne (1990), Comparative Study of Infrared Radiance Measurements by an ER-2 based Radiometer and the Landsat 5 Thematic Mapper (TM6), Mon. Wea. Rev..
- Liou, K., et al. (1990), Remote Sounding of the Cirrus Cloud Temperature and Optical Depth Using 6.5 and 10.5 mm Radiometers during STEP, J. Appl. Meteor., 29, 716-726.
- Suarez, C. B., and F. Valero (1990), Temperature Dependence Factor in Self-Broadening of CO2 Spectrum, J. Quant. Spectrosc. Radiat. Transfer, 23, 23.
- Suarez, C. B., and F. Valero (1990), Line Intensities of CO2 at Different Temperatures, Journal of Molecular Spectroscopy, 140, 407.
- Suarez, C. B., and F. Valero (1990), Temperature Dependence of Self-Broadened Halfwidths of CO2, J. Quant. Spectrosc. Radiat. Transfer, 43, 327.
Note: Only publications that have been uploaded to the
ESD Publications database are listed here.