Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions

We present the results of a system study conducted to develop and demonstrate a high sensitivity ground-based and airborne DIAL System for measuring atmospheric CH4. This program addresses the 2007 NRC Decadal Survey recommendation that ‘if appropriate and cost-effective methane technology becomes a...

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Main Authors: Syed, Ismail, Crawford, James, Leifer, Ira, Hovis, Floyd, Burnham, Ralph, Hair, John, Refaat, Tamer, Notari, Anthony, Collins, James, Kooi, Susan, Hardesty, Michael, Devi, V. Malathy, Benner, D. Chris, Brown, Linda R., Sung, Keeyoon, Diskin, Glenn, Fix, Andreas, Abedin, Nurul, Hostetler, Chris
Format: Conference Object
Language:unknown
Published: 2010
Subjects:
Lidar
Ice
permafrost
Online Access:https://elib.dlr.de/67318/
id ftdlr:oai:elib.dlr.de:67318
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:67318 2024-05-19T07:41:55+00:00 Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions Syed, Ismail Crawford, James Leifer, Ira Hovis, Floyd Burnham, Ralph Hair, John Refaat, Tamer Notari, Anthony Collins, James Kooi, Susan Hardesty, Michael Devi, V. Malathy Benner, D. Chris Brown, Linda R. Sung, Keeyoon Diskin, Glenn Fix, Andreas Abedin, Nurul Hostetler, Chris 2010-12-16 https://elib.dlr.de/67318/ unknown Syed, Ismail und Crawford, James und Leifer, Ira und Hovis, Floyd und Burnham, Ralph und Hair, John und Refaat, Tamer und Notari, Anthony und Collins, James und Kooi, Susan und Hardesty, Michael und Devi, V. Malathy und Benner, D. Chris und Brown, Linda R. und Sung, Keeyoon und Diskin, Glenn und Fix, Andreas und Abedin, Nurul und Hostetler, Chris (2010) Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions. 2010 AGU Fall Meeting, 2010-12-13 - 2010-12-17, San Francisco. Lidar Konferenzbeitrag NonPeerReviewed 2010 ftdlr 2024-04-25T00:19:03Z We present the results of a system study conducted to develop and demonstrate a high sensitivity ground-based and airborne DIAL System for measuring atmospheric CH4. This program addresses the 2007 NRC Decadal Survey recommendation that ‘if appropriate and cost-effective methane technology becomes available, methane capability should be added’ to close the carbon budget. A highly efficient absorber of IR radiation, methane is a potent greenhouse gas with a warming potential 72 times greater than CO2 per molecule, over a 20-year horizon. The proposed measurement will enable scientific assessments globally, and in particular of northern latitude CH4 emission impacts on climate and enhance understanding of ecosystem response to climate variability and land cover change. This system will provide simultaneous ranging and high resolution measurements of aerosol and cloud distributions. This will incorporate a pulsed 1.65 mm OPO laser; an existing receiver system redesigned to optimize its performance for this wavelength by incorporating an optical filter; a commercially available InGaAs APD and an existing 3-D scanner. High resolution FTIR laboratory spectroscopic measurements in the R4 transitions of 2ν3 of CH4 will be conducted to maximize accuracy of retrievals. This development demonstrates an azimuthal scanning system for ground-based mapping and monitoring of range-resolved, near-surface CH4 emissions and airborne detection of dry CH4 boundary layer and total vertical column fractions. Due to its relative insensitivity to aerosol and cloud interferences, this system will be ideal for investigating high latitude CH4 releases over polar ice sheets, permafrost regions, wetlands, and over open ocean during night and day as well as commercial applications in of natural gas leaks. The proposed task is applicable to NASA sub-orbital, satellite validation, and venture class programs. Conference Object Ice permafrost German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Lidar
spellingShingle Lidar
Syed, Ismail
Crawford, James
Leifer, Ira
Hovis, Floyd
Burnham, Ralph
Hair, John
Refaat, Tamer
Notari, Anthony
Collins, James
Kooi, Susan
Hardesty, Michael
Devi, V. Malathy
Benner, D. Chris
Brown, Linda R.
Sung, Keeyoon
Diskin, Glenn
Fix, Andreas
Abedin, Nurul
Hostetler, Chris
Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions
topic_facet Lidar
description We present the results of a system study conducted to develop and demonstrate a high sensitivity ground-based and airborne DIAL System for measuring atmospheric CH4. This program addresses the 2007 NRC Decadal Survey recommendation that ‘if appropriate and cost-effective methane technology becomes available, methane capability should be added’ to close the carbon budget. A highly efficient absorber of IR radiation, methane is a potent greenhouse gas with a warming potential 72 times greater than CO2 per molecule, over a 20-year horizon. The proposed measurement will enable scientific assessments globally, and in particular of northern latitude CH4 emission impacts on climate and enhance understanding of ecosystem response to climate variability and land cover change. This system will provide simultaneous ranging and high resolution measurements of aerosol and cloud distributions. This will incorporate a pulsed 1.65 mm OPO laser; an existing receiver system redesigned to optimize its performance for this wavelength by incorporating an optical filter; a commercially available InGaAs APD and an existing 3-D scanner. High resolution FTIR laboratory spectroscopic measurements in the R4 transitions of 2ν3 of CH4 will be conducted to maximize accuracy of retrievals. This development demonstrates an azimuthal scanning system for ground-based mapping and monitoring of range-resolved, near-surface CH4 emissions and airborne detection of dry CH4 boundary layer and total vertical column fractions. Due to its relative insensitivity to aerosol and cloud interferences, this system will be ideal for investigating high latitude CH4 releases over polar ice sheets, permafrost regions, wetlands, and over open ocean during night and day as well as commercial applications in of natural gas leaks. The proposed task is applicable to NASA sub-orbital, satellite validation, and venture class programs.
format Conference Object
author Syed, Ismail
Crawford, James
Leifer, Ira
Hovis, Floyd
Burnham, Ralph
Hair, John
Refaat, Tamer
Notari, Anthony
Collins, James
Kooi, Susan
Hardesty, Michael
Devi, V. Malathy
Benner, D. Chris
Brown, Linda R.
Sung, Keeyoon
Diskin, Glenn
Fix, Andreas
Abedin, Nurul
Hostetler, Chris
author_facet Syed, Ismail
Crawford, James
Leifer, Ira
Hovis, Floyd
Burnham, Ralph
Hair, John
Refaat, Tamer
Notari, Anthony
Collins, James
Kooi, Susan
Hardesty, Michael
Devi, V. Malathy
Benner, D. Chris
Brown, Linda R.
Sung, Keeyoon
Diskin, Glenn
Fix, Andreas
Abedin, Nurul
Hostetler, Chris
author_sort Syed, Ismail
title Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions
title_short Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions
title_full Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions
title_fullStr Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions
title_full_unstemmed Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions
title_sort development of a 1.65 μm pulsed laser dial system to map atmospheric ch4 distributions
publishDate 2010
url https://elib.dlr.de/67318/
genre Ice
permafrost
genre_facet Ice
permafrost
op_relation Syed, Ismail und Crawford, James und Leifer, Ira und Hovis, Floyd und Burnham, Ralph und Hair, John und Refaat, Tamer und Notari, Anthony und Collins, James und Kooi, Susan und Hardesty, Michael und Devi, V. Malathy und Benner, D. Chris und Brown, Linda R. und Sung, Keeyoon und Diskin, Glenn und Fix, Andreas und Abedin, Nurul und Hostetler, Chris (2010) Development of a 1.65 μm pulsed laser DIAL System to map atmospheric CH4 distributions. 2010 AGU Fall Meeting, 2010-12-13 - 2010-12-17, San Francisco.
_version_ 1799481523697614848

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