Monday, 8 July 2002
Posters
- 15h30 to 19h00
Chairs : John Hahn and Volker Wulfmeyer
S2P.01
Hampton University’s Center for Lidar and
Atmospheric Sciences
S2P.02
A High
Spectral Resolution Lidar Designed of Unattended
S2P.03
High-Spectral-Resolution
Lidar (HSRL) Observation of
S2P.04
Multiwavelength Aerosol and Raman lidar
S2P.05 The UPC Scanning Raman Lidar : An Engineering
Overview
S2P.06
POLIS - A New Portable LIdar System for Ground-Based
S2P.07
A Dual Receiver-Backscatter Lidar Operated in Buenos Aires
S2P.08
A New
Lidar System for Continuous Monitoring of Ozone and
S2P.09
The Zugspitze Lidar : On the Way to Ground-Based
Water-Vapour
S2P.10
Description of a Raman Water Vapor Lidar Implemented on
an
S2P.11
Ultra-Narrow
Band Fiber Bragg Grating Water Vapor Lidar Filter
S2P.12
A 2-Micron DIAL System for Profiling Atmospheric CO2
S2P.14
Co-Linear Type Compact Lidar with Nearly Non-Diffractive Beam
S2P.15
Improvement to the Acquisition and Control System of
S2P.16
Inexpensive High Rate Photon Counting for Lidar
S2P.17
Background Noise Reduction with a Fabry-Perot Etalon
Filter in
S2P.18
Uncertainties of Particle Depolarization Ratio
Measurements
S2P.19
Errors
in Backscatter Profiles Caused by a
S2P.21
Optical
Profiling of Variable Resolution by Novel Time of
S2P.22
Development of Phase Conjugation Mirrors for Space, Application
S2P.23
Water
Surface Returns as a Function of Incidence Angle at 2 um
S2P.24
Lidar Studies of the Marine Environment in the Gulf of
Alaska
S2P.25
Burst
Illumination Imaging Lidar: Application to Vision through
S2P.26
Celestial
Body Image Processing by a Stratospheric Laser Guide
S2P.27
Data
Compression Technique for Mass
data Obtained by Lidar
S2P.28
Validar
: A High-Energy 2-micron Coherent Doppler Lidar for
S2P.29
Commercial Multiwavelength
Ozone DIAL for Automated
S2P.30
Picosecond-Gated,
Ultra-High Repetition Rate Intensified CCD
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