LWG, Destin (Fl.), 27/1/2009 VAMP seduces Aeolus (to optimize its vertical sampling) Gert-Jan...
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Transcript of LWG, Destin (Fl.), 27/1/2009 VAMP seduces Aeolus (to optimize its vertical sampling) Gert-Jan...
![Page 1: LWG, Destin (Fl.), 27/1/2009 VAMP seduces Aeolus (to optimize its vertical sampling) Gert-Jan Marseille, Ad Stoffelen, Karim Houchi, Jos de Kloe (KNMI)](https://reader036.fdocuments.us/reader036/viewer/2022070414/5697c0221a28abf838cd3805/html5/thumbnails/1.jpg)
LWG, Destin (Fl.), 27/1/2009
VAMP seduces Aeolus
(to optimize its vertical sampling)
Gert-Jan Marseille, Ad Stoffelen, Karim Houchi, Jos de Kloe (KNMI)Heiner Körnich (MISU), Harald Schyberg (MetNo)
funded by ESA
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LWG, Destin (Fl.), 27/1/2009
ADM-Aeolus
• ESA Earth Core Explorer Mission
• Doppler wind lidar to measure wind profiles
• Scheduled launch: April 2011
• Main characteristics:– polar orbit, dawn-dusk
– 400 km altitude
– 355 nm laser
– Single line of sight (LOS)
– 35° looking angle
– Sampling scheme: 50 km on a 200 km track
– Range from surface to ~26 km
First observing system to provide a global coverage of 3-D wind
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LWG, Destin (Fl.), 27/1/2009
Aeolus coverage
ADM samples data sparse sensitive areas
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LWG, Destin (Fl.), 27/1/2009
ADM receiver
from relay optics (D=36 mm)
10 nm
Low resolution filter
6 pm
Brewster plate
Medium resolution filter
Quarterwave plate
High resolution Mie interferometer
Relay optics
DFU1 (Mie receiver)with accumulation CCD
1 pm
6 pm
6 pm
A B
High resolution Rayleigh interferometer
Relay optics
DFU2 (Rayleigh receiver)with accumulation CCD
• Spectral separator relying on polarisation discrimination
• Combined receiver including:– Multi channel Mie (Fizeau) receiver
– Dual channel Rayleigh (Fabry-Perot) receiver
– Accumulation CCD detection chain
HSRL lidar
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LWG, Destin (Fl.), 27/1/2009
ADM sampling
• km-length samples• 14-50 samples in an observation• Limitation of 24 vertical samples for both Mie & Rayleigh
How to distribute these effectively?
26 km
16 km
0 km
Mie Rayleigh
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LWG, Destin (Fl.), 27/1/2009
ESA VAMP study
• VAMP – Vertical Aeolus Measurement Positioning
• Consider the atmospheric dynamical and optical characteristics and their interaction with the ADM-Aeolus measurement system in order to optimize the user benefit of the Aeolus system
• The study will conclude with a recommendation for the operation of the instrument spatial and temporal sampling, to provide maximum mission benefit
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LWG, Destin (Fl.), 27/1/2009
Issues
• Wind variability
• Representation of the mean wind in heterogeneous conditions– Combined wind and optical variability
– Height assignment
– Atmospheric state / climate dependence
• Terrain-following vertical samplingzi+1
zi
Backscatter/extinction
wind-shear
Combined wind-shear and optical (backscatter /extinction) variability over bin causes height assignment errors; mean wind in bin measured wind
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LWG, Destin (Fl.), 27/1/2009
ADM sampling in heterogeneous atmosphere
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LWG, Destin (Fl.), 27/1/2009
ECMWF HLOS wind along orbit HLOS wind-shear along orbit
Combined optical and dynamical variability
1/1/2007
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LWG, Destin (Fl.), 27/1/2009
Vertical sampling restrictions
Vertical sampling scenario can be changed 8 times per orbit
• 24 levels for the Fizeau (Mie) and Fabry-Perot (Rayleigh)
• Weekly commanding, set 3 weeks ahead
• Mie ground calibration over land (TBD)
• Fabry-Perot and Fizeau cross calibration of wind
• Mie cross talk correction
• Mie contamination for Fabry-Perot only (stratosphere)
• Bin size limitation: multiples of 250 m with a maximum of 2000 m.
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LWG, Destin (Fl.), 27/1/2009
Optional vertical sampling scenarios and many more ………….
Maximum Mie/Rayleigh overlap Mie focus on PBL/troposphere Mie oversampling in Tropics (cirrus)
courtesy Jos de Kloe (KNMI)
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LWG, Destin (Fl.), 27/1/2009
VAMP approach
• Generate statistics of atmosphere dynamical and optical variability as a function of season/climate zone/land/sea – Atmospheric optics: CALIPSO; global coverage
– Atmospheric dynamics: ECMWF global model, collocated at CALIPSO locations
• However, model dynamics too smooth, lacking small-scale atmospheric scales, thus underestimating the number of large shear events
• Use additional data sources to adapt the model dynamics– Cloud Resolving Model: horizontal and vertical atmospheric variability
– Hi-Res Radiosonde: vertical atmospheric variability
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LWG, Destin (Fl.), 27/1/2009
Atmospheric optics
• CALIPSO level-2 aerosol product– Too coarse (40 km horizontal resolution)
• CALIPSO level-1 product– Convert attenuated backscatter @532nm to particle backscatter @355nm
– Averaging to 3.5 km (horizontal), 125 m (vertical)
– i.e. compatible with ADM sampling
• Cloud detection and optical properties computation
• Use night-time orbits only; to reduce noise contamination
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LWG, Destin (Fl.), 27/1/2009
Tropical cirrus
CALIPSO L1B
Cloud lidar ratioParticle backscatter
Pre-processed CALIPSO L1B
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LWG, Destin (Fl.), 27/1/2009
Retrieval algorithm validation – CALIPSO L2 aerosol product
CALIPSO raw L1 data
Aerosol/cloud from retrieval algorithm
CALIPSO L2 aerosol product
Validation with CALIPSO level-2 aerosol product limited to large aerosol loadings
40 km horizontal120 m vertical (< 20km)360 m vertical (> 20 km)
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LWG, Destin (Fl.), 27/1/2009
Retrieval algorithm validation – LITE/RMA
355 nm aerosol backscatterGreen: Vaughan 1989 data (RMA)Purple: LITE 1994Red/black: CALIPSO 2007
Blue: molecular backscatter
CALIPSO retrieval is in between “clean” Vaughan and “dirty” LITE period
January 2007
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LWG, Destin (Fl.), 27/1/2009
Atmospheric dynamics (HLOS wind-shear statistics)
ECMWF model (T799L91)
Mean HLOS wind shear 0.002-0.003 s-
1, i.e. 2-3 ms-1 /km,
maximum wind shear
0.04 s-1 near surface and tropopause height
August 2007
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LWG, Destin (Fl.), 27/1/2009
Extreme heterogeneous atmosphere statistics
Extreme heterogeneous atmospheres are rare in the free troposphere, less than 1%, but can be up to 10% in the PBL. Model dynamics underestimates real atmospheric variability
January 2007 August 2007
cirruscirrus
PSC
optical thick clouds
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LWG, Destin (Fl.), 27/1/2009
High Resolution radiosondes ( ~30 m. resolution)
ECMWF effective vertical resolution ~ 1.5 km
courtesy Karim Houchi (KNMI)
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LWG, Destin (Fl.), 27/1/2009
Cloud resolving models (Tropics)
• CRM lacks small-scales
• Under investigation
vertical wind velocity occurrence
vertical wind velocity > 1 m s-1
precip. Mm/day
wind-shear > 0.01 s-1
courtesy Heiner Körnich (MISU)
CRM: high horizontal and vertical resolution
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LWG, Destin (Fl.), 27/1/2009
To do: dataset integration/data assimilation issues
• Integrate NWP/CRM/Hi-Res radiosonde statistics Global statics of the occurrence of heterogeneous atmospheric scenes Input for the selection of vertical sampling scenarios
• Recapitulate measures of expected ADM impact as a function of height and climate zone. Anticipated background and observation error variances should be compared to estimate the "information content" of different vertical sampling scenarios. O-B and O-A statistics of other wind observation types could provide further guidance.
• A simple vertical analysis model to simulate the effect of shear data assimilation should be tested. Realistic NWP experiments can be conducted for existing wind profile data.
• Assimilation ensemble experiment (Tan and Andersson, 2005) with a focus on the stratospheric dynamics for selected sampling scenarios
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LWG, Destin (Fl.), 27/1/2009
Conclusion
• For ADM an advanced vertical sampling scenario needs to be elaborated due to the limited number of vertical range gates.
• Issues of instrument wind calibration, zonal wind variability climate, atmospheric heterogeneity, expected beneficial impact, and data assimilation method are all at interplay.
• At this point several options remain open, which should be studied in more detail to provide guidance before the launch in 2011.
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LWG, Destin (Fl.), 27/1/2009
• Backup slides
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LWG, Destin (Fl.), 27/1/2009
ADM height assignment and HLOS wind error
H
HLOS
Rayleigh Mie (high SNR only)