coordinated multiwavelength raman lidar/sun photometer measurements
DESCRIPTION
Raman Lidar Lab B33/F421B. AERONET Sun photometer. NOAA Airborne Aerosol Observatory. - PowerPoint PPT PresentationTRANSCRIPT
Active and Passive Aerosol Physical Property Measurements, Active and Passive Aerosol Physical Property Measurements, Inverse Retrieval Studies and In-Situ ValidationInverse Retrieval Studies and In-Situ Validation
Investigators: Whiteman/GSFC, Veselovskii/UMBC, Ogren/NOAA, Andrews/CIRESInvestigators: Whiteman/GSFC, Veselovskii/UMBC, Ogren/NOAA, Andrews/CIRESCollaborators: Sinyuk/SSAI, Dubovik/CNRS, Holben/GSFC, Ferrare/LaRC, Hostetler/LaRC, Müller/IfTP, Collaborators: Sinyuk/SSAI, Dubovik/CNRS, Holben/GSFC, Ferrare/LaRC, Hostetler/LaRC, Müller/IfTP,
GermanyGermany
Coordinated Multiwavelength Raman Lidar/Sun Photometer Measurements
– Study influence of height distribution of aeorsol properties on aeronet retrievals
Focus on hygroscopic growth– Validation campaigns using NOAA AAO in 2009
and 2010. Joint retrieval studies
– Develop optimized retrievals for MW lidar + sunphotometer Single wavelength backscatter lidar + sun
photometer Supported under RSP/Hal Maring Raman Lidar LabRaman Lidar Lab
B33/F421BB33/F421BNOAANOAAAirborne Aerosol ObservatoryAirborne Aerosol Observatory
AERONETAERONETSun photometerSun photometer
0.1 1 100
10
20
30
40
50
60
70
dV
/dln
r, m
3 cm
-3
Radius, m
2.9 km
2.3 km
1.5 km
Aerosol size distribution measured by lidar at three altitudes under high RH conditions at GSFC in summer/2006