Compact, Engineered, 2-Micron Coherent Doppler Wind Lidar Prototype: A NASA IIP Selected Proposal
Development of a Compact, Pulsed, 2-Micron, Coherent ...
Transcript of Development of a Compact, Pulsed, 2-Micron, Coherent ...
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Development of a Compact, Pulsed, 2-Micron, Coherent-Detection, Doppler Wind Lidar Transceiver
Michael J. Kavaya, Upendra N. Singh, Grady J. Koch, Jirong Yu, Bo C. TrieuNASA Langley Research Center, Hampton, Virginia 23681 USA
Mulugeta PetrosScience and Technology Corporation
Paul J. PetzarNational Institute of Aerospace
Coherent Laser Radar ConferenceToulouse, France
June 23, 2009
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Acknowledgments
Grady J. Koch NASA LaRC Co-I, overall lidar system lead, field demonstration, receiver
Jirong Yu NASA LaRC Co-I, pulsed transmitter laser lead
Bo C. Trieu NASA LaRC Co-I, mechanical and thermal engineering
Jeffrey Y. Beyon NASA LaRC Data acquisition HW & SW
Upendra N. Singh NASA LaRC Co-I, pulsed transmitter laser
Carl S. Mills/Paul J. Petzar NASA LaRC/NIA Electronic design & fabrication
G. David Emmitt SWA Airborne Doppler lidar, pointing knowledge
Michael J. Kavaya NASA LaRC Principal Investigator
Garfield A. Creary NASA LaRC Project manager
John Cox SSAI Management consultant
Ramesh K. Kakar/George J. Komar/Janice L. Buckner
NASA ESD/ESTO Guidance & Funding
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3
2007
Global Winds9 Societal Benefits
Extreme Weather Warnings
Human Health
Earthquake Early Warning
Improved Weather Prediction #1Sea-Level Rise
Climate Prediction
Freshwater Availability
Ecosystem Services
Air Quality
NRC Decadal Survey
Motivation for 2-Micron Laser/Lidar Development
NRC Recommended “3-D Winds” Mission
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Multiple Aspects of 2-Micron Laser/Lidar Advancement at NASA/LaRC
• Laser Physics
• Material Physics
• Laser Architecture
• Pump Laser Diodes
• Pulse Energy
• Pulse Repetition Frequency
• Pulse Length
• Pulse Spectral Width
• Beam Quality
• Electrical Efficiency
• Conductive Cooling
• Compact Packaging
• Lidar Telescope
• Lidar Scanner
• Data Acquisition
• Data Processing
• Ground Demonstration
• Intercomparison
• Airborne Demonstration
• Autonomous Operation
• Laser Lifetime
• Space Qualifiable Brassboard
• Space Qualification
futurepast
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Doppler Aerosol WiNd lidar (DAWN)
Compact Engineered Coherent Doppler Lidar Transceiver
Lidar System
Propagation Path (Atmosphere)
Computer, Data Acquisition, and Signal Processing
(including software)
Laser & Optics Scanner Telescope
Target(Atmospheric
Aerosols)
Pulsed Transmitter Laser(includes CW injection laser)
Detector/Receiver(may include 2nd CW LO laser)
Polarizing Beam
Splitter
λ/4Plate
Transceiver
Electronics(Power Supplies,
Controllers)Laser Chillers
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DAWN Results
Previous implementation90 mJ per pulse
Completed DAWN packageSmall, Robust, 250 mJ per pulse
DAWN Transceiver (Transmitter + Receiver)250 mJ/pulse, 10 pulses/sec.
5.9” x 11.6” x 26.5”, 75 lbs.; 15 x 29 x 67 cm, 34 kg
(no telescope or scanner)
5.9” x 11.6” x 26.5”
• Smaller
• More energy
• More robust
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Commercial Doppler Lidar
2 microns, 2 mJ, 500 Hz, 10 cm telescope111 x 85 x 102 H inches, > $1 M
LaRC DAWN
2 microns, 250 mJ, 5 Hz, 15 cm telescopeTransceiver: 6 x 12 x 27 inches, 75 lbs
DAWN vs. COTS UnitWind figure of merit = E x √PRF x D2
Energy gain = x125Energy-PRF gain = x13Energy-PRF-diameter gain = x26Either x26 in aerosol backscatter sensitivity or x5 in range
DAWN Transceiver vs. Commercial Doppler Lidar
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DAWN Wind Measurement Performance
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altit
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wind speed (m/s)
VALIDAR (3-minute integration)sonde
• sonde of February 24, 2009 at 17:59 local
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altit
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wind direction (degrees)
VALIDAR (3-minute integration)sonde
• root-mean-square of difference between two sensors for all points shown = 5.78 deg
• root-mean-square of difference between two sensors for all points shown = 1.06 m/s
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sonde direction - VALIDAR direction (degrees)
Error Tree
Lidar+Sonde
+Location ∆+Time ∆
+M Volume ∆+M Time Int. ∆
=Total Error
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Current Work in Progress
• DAWN-AIR1: Utilize DAWN Transceiver to develop a complete
Doppler lidar system for the DC-8 airplane
• No flights included
• DAWN-AIR2: Utilize DAWN-AIR1 hardware and convert to
operation on the higher altitude WB-57 airplane
• Upgrade hardware to autonomous operation
• Demonstration flights
• Fly with NASA GSFC direct detection Doppler wind lidar system
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DAWN-AIR1 Approach
DAWN Transceiver (Transmitter + Receiver)250 mJ/pulse, 10 pulses/sec.
5.9” x 11.6” x 26.5”, 75 lbs.; 15 x 29 x 67 cm, 34 kg(no telescope or scanner)
1. Add telescope and scanner to DAWN
2. Ruggedize electronics for DC-8
Lidar System
Propagation Path (Atmosphere)
Computer, Data Acquisition, and Signal Processing
(including software)
Laser & Optics Scanner Telescope
Target(Atmospheric
Aerosols)
Pulsed Transmitter Laser(includes CW injection laser)
Detector/Receiver(may include 2nd CW LO laser)
Polarizing Beam
Splitter
λ/4Plate
Transceiver
Electronics(Power Supplies,
Controllers)Laser Chillers
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DAWN-AIR 1Artist Concept
• 30 deg nadir angle
• Any azimuth angle
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DAWN-AIR1
As shown with both the 30deg and 45deg cone
Lidar Sealed EnclosureContains:
DAWN TransceiverTelescopeScanner & Wedge
Vibration Isolation
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DAWN-AIR2 Approach
Lidar System
Propagation Path (Atmosphere)
Computer, Data Acquisition, and Signal Processing
(including software)
Laser & Optics Scanner Telescope
Target(Atmospheric
Aerosols)
Pulsed Transmitter Laser(includes CW injection laser)
Detector/Receiver(may include 2nd CW LO laser)
Polarizing Beam
Splitter
λ/4Plate
Transceiver
Electronics(Power Supplies,
Controllers)Laser Chillers
• 2 3-ft pallets
• 45 deg nadir angle
• Any azimuth angle
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Conclusions
• Working with NASA LaRC developed 2-micron laser technology that has
demonstrated 1.2 J pulse energy
• Compact, engineered transceiver at 250 mJ, 5 Hz has successfully proven wind
measurement and robustness
• Now developing lidar systems using this transceiver for DC-8 and WB-57
aircraft
• Have proposed to fly in NASA SMD ESD hurricane Genesis and Rapid
Intensification Program (GRIP) in summer 2010
• Desire to continue technology advancement for 3-D Winds space mission