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P H Flamant

Showing results (1-10 of 14) with videos related to

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Applied Optics|November 19, 2010
Iterative method to determine an averaged backscatter-to-extinction ratio in cirrus cloudsS Elouragini, P H Flamant
Applied Optics|October 22, 2010
Simulation in the time domain for heterodyne coherent laser radarP Salamitou, A Dabas, P H Flamant
Applied Optics|March 14, 2008
Spectral diversity technique for heterodyne Doppler Lidar that uses hard target returnsP Drobinski, P H Flamant, P Salamitou
Applied Optics|October 14, 2010
Characterization of pulsed coherent Doppler LIDAR with the speckle effectA Dabas, P H Flamant, P Salamitou
Applied Optics|May 20, 1997
Lidar effective multiple-scattering coefficients in cirrus cloudsF O Nicolas, L R Bissonnette, P H Flamant
Applied Optics|March 25, 2008
Computation of a single-scattering matrix for nonspherical particles randomly or horizontally oriented in spaceV Noel, G Ledanois, H Chepfer, et al.
Applied Optics|February 29, 2008
Urban boundary-layer height determination from lidar measurements over the paris areaL Menut, C Flamant, J Pelon, et al.
Applied Optics|May 1, 1984
Evidence for speckle effects on pulsed CO2 lidar signal returns from remote targetsP H Flamant, R T Menzies, M J Kavaya
Applied Optics|March 25, 2008
Analytical empirical expressions of the transverse coherence properties for monostatic and bistatic lidars in the presence of moderate atmospheric refractive-index turbulenceG Guérit, P Drobinski, P H Flamant, et al.
Applied Optics|March 18, 2008
Four-Element Receiver for Pulsed 10-mum Heterodyne Doppler LidarX Favreau, A Delaval, P H Flamant, et al.
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
Applied Optics|November 19, 2010
Iterative method to determine an averaged backscatter-to-extinction ratio in cirrus cloudsS Elouragini, P H Flamant
Applied Optics|October 22, 2010
Simulation in the time domain for heterodyne coherent laser radarP Salamitou, A Dabas, P H Flamant
Applied Optics|March 14, 2008
Spectral diversity technique for heterodyne Doppler Lidar that uses hard target returnsP Drobinski, P H Flamant, P Salamitou
Applied Optics|October 14, 2010
Characterization of pulsed coherent Doppler LIDAR with the speckle effectA Dabas, P H Flamant, P Salamitou
Applied Optics|May 20, 1997
Lidar effective multiple-scattering coefficients in cirrus cloudsF O Nicolas, L R Bissonnette, P H Flamant
Applied Optics|March 25, 2008
Computation of a single-scattering matrix for nonspherical particles randomly or horizontally oriented in spaceV Noel, G Ledanois, H Chepfer, et al.
Applied Optics|February 29, 2008
Urban boundary-layer height determination from lidar measurements over the paris areaL Menut, C Flamant, J Pelon, et al.
Applied Optics|May 1, 1984
Evidence for speckle effects on pulsed CO2 lidar signal returns from remote targetsP H Flamant, R T Menzies, M J Kavaya
Applied Optics|March 25, 2008
Analytical empirical expressions of the transverse coherence properties for monostatic and bistatic lidars in the presence of moderate atmospheric refractive-index turbulenceG Guérit, P Drobinski, P H Flamant, et al.
Applied Optics|March 18, 2008
Four-Element Receiver for Pulsed 10-mum Heterodyne Doppler LidarX Favreau, A Delaval, P H Flamant, et al.
Pageof 2