Wind speed dependence of atmospheric boundary layer optical properties and ocean surface reflectance as observed by airborne backscatter lidar
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Jacques Pelon | Patrick Chazette | Cyrille Flamant | Vincent Trouillet | C. Flamant | J. Pelon | P. Chazette | V. Trouillet
[1] Kenneth Petri,et al. Laser Radar Reflectance of Chesapeake Bay Waters as a Function of Wind Speed , 1977, IEEE Transactions on Geoscience Electronics.
[2] P. Flamant,et al. Airborne C02 Coherent Lidar Measurements of Cloud Backscatter and Opacity over the Ocean Surface , 1994 .
[3] S. H. Melfi,et al. Lidar observations of vertically organized convection in the planetary boundary layer over the ocean , 1985 .
[4] Benjamin M. Herman,et al. Vertical Distribution of Aerosol Extinction Cross Section and Inference of Aerosol Imaginary Index in the Troposphere by Lidar Technique , 1980 .
[5] Stuart G. Gathman,et al. Optical Properties Of The Marine Aerosol As Predicted By The Navy Aerosol Model , 1983 .
[6] J. Klett. Lidar inversion with variable backscatter/extinction ratios. , 1985, Applied optics.
[7] V. Kovalev,et al. Sensitivity of the lidar solution to errors of the aerosol backscatter-to-extinction ratio: influence of a monotonic change in the aerosol extinction coefficient. , 1995, Applied optics.
[8] Yves Fouquart,et al. Sulfur emission, CCN, clouds and climate : a review , 1992 .
[9] Y. Kaufman,et al. Passive remote sensing of tropospheric aerosol and atmospheric , 1997 .
[10] P. Hobbs,et al. Aerosol size distributions in the cloudy atmospheric boundary layer of the North Atlantic Ocean , 1993 .
[11] M. H. Smith,et al. Atmospheric loadings of marine aerosol during a Hebridean cyclone , 1989 .
[12] D. E. Spiel,et al. A Model of Marine Aerosol Generation Via Whitecaps and Wave Disruption , 1986 .
[13] Kenneth L. Davidson,et al. The naval oceanic vertical aerosol model: progress report , 1990 .
[14] J. Coakley,et al. Climate Forcing by Anthropogenic Aerosols , 1992, Science.
[15] J. Weinman,et al. Derivation of atmospheric extinction profiles and wind speed over the ocean from a satellite-borne lidar. , 1988, Applied optics.
[16] J. W. Fitzgerald,et al. The Size and Scattering Coefficient of Urban Aerosol Particles at Washington, DC as a Function of Relative Humidity. , 1982 .
[17] Gerrit de Leeuw. Modeling of extinction and backscatter profiles in the marine mixed layer. , 1989 .
[18] S. Palm,et al. Cold-Air Outbreak during GALE: Lidar Observations and Modeling of Boundary Layer Dynamics , 1991 .
[19] M. H. Smith,et al. The effect of mixing height on maritime aerosol concentrations over the north atlantic ocean , 1990 .
[20] J. Seinfeld,et al. Aerosol production and growth in the marine boundary layer , 1994 .
[21] Gottfried Hänel,et al. The Properties of Atmospheric Aerosol Particles as Functions of the Relative Humidity at Thermodynamic Equilibrium with the Surrounding Moist Air , 1976 .
[22] T. Larson,et al. Modeling the effects of heterogeneous cloud chemistry on the marine particle size distribution , 1992 .
[23] H. Sievering,et al. Aerosol size distribution and aerosol water content measurements during Atlantic Stratocumulus Transition Experiment/Marine Aerosol and Gas Exchange , 1995 .
[24] Ruprecht Jaenicke,et al. Chapter 1 Tropospheric Aerosols , 1993 .
[25] Jean-Pierre Blanchet,et al. Modeling sea-salt aerosols in the atmosphere 1. Model development , 1997 .
[26] W. Munk,et al. Measurement of the Roughness of the Sea Surface from Photographs of the Sun’s Glitter , 1954 .
[27] S. Planton,et al. Study of the air-sea interactions at the mesoscale: the SEMAPHORE experiment , 1996 .
[28] C. Bretherton,et al. The Atlantic Stratocumulus Transition Experiment - ASTEX , 1995 .
[29] A. H. Woodcock,et al. THE PRODUCTION, CONCENTRATION, AND VERTICAL DISTRIBUTION OF THE SEA‐SALT AEROSOL * , 1980 .
[30] David M. Winker,et al. An overview of LITE: NASA's Lidar In-space Technology Experiment , 1996, Proc. IEEE.
[31] James D. Spinhirne,et al. Cirrus Structure and Radiative Parameters from Airborne Lidar and Spectral Radiometer Observations: The 28 October 1986 FIRE Study , 1990 .
[32] E. Shettle,et al. Models for the aerosols of the lower atmosphere and the effects of humidity variations on their optical properties , 1979 .
[33] LITE Validation Experiment along California's Coast: Preliminary results , 1996 .
[34] M. H. Smith,et al. Marine aerosol concentrations and estimated fluxes over the sea , 1993 .
[35] Jacques Pelon,et al. Study of the moist Convective Boundary Layer structure by backscattering lidar , 1994 .
[36] Martin Heimann,et al. The global atmospheric tracer model TM3 , 1995 .
[37] J. Bufton,et al. Airborne measurements of laser backscatter from the ocean surface. , 1983, Applied optics.
[38] A. H. Woodcock,et al. The vertical distribution of the concentration of sea salt in the marine atmosphere near Hawaii , 1984 .
[39] Gordon E. Schacher,et al. Application of a mixed‐layer model to aerosols in the marine boundary layer , 1984 .
[40] J. Pelon,et al. Comparative lidar study of the optical, geometrical, and dynamical properties of stratospheric post‐volcanic aerosols, following the eruptions of El Chichon and Mount Pinatubo , 1995 .
[41] J. Klett. Stable analytical inversion solution for processing lidar returns. , 1981, Applied optics.
[42] L. Prieur,et al. Analysis of variations in ocean color1 , 1977 .
[43] C. Gardner,et al. Multicolor laser altimeter for barometric measurements over the ocean: theoretical. , 1983, Applied optics.
[44] M. H. Smith,et al. Marine aerosol, sea-salt, and the marine sulphur cycle: a short review , 1997 .
[45] D. A. Zielinskie,et al. Spaceborne lidar remote sensing techniques aided by surface returns , 1991 .
[46] J. W. Fitzgerald,et al. Aerosol size distributions and optical properties found in the marine boundary layer over the Atlantic Ocean , 1990 .