Atmospheric Radiation Measurement Program facilities newsletter, June 2001.
The ARM Program studies clouds, sunlight, and their interactions to understand how they affect Earth's climate. One of the many instruments used to look at clouds at the SGP CART site is the micropulse lidar (MPL; ''lidar'' was coined from ''light distance and rang...
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| Online Access: | https://doi.org/10.2172/783639 https://digital.library.unt.edu/ark:/67531/metadc716726/ |
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ftunivnotexas:info:ark/67531/metadc716726 2023-05-15T15:39:44+02:00 Atmospheric Radiation Measurement Program facilities newsletter, June 2001. ARM Facilities Newsletter Holdridge, D.J. United States. Department of Energy. 2001-07-10 2 pages Text https://doi.org/10.2172/783639 https://digital.library.unt.edu/ark:/67531/metadc716726/ English eng Argonne National Laboratory rep-no: ANL/ER/NL-01-06 grantno: W-31-109-ENG-38 doi:10.2172/783639 osti: 783639 https://digital.library.unt.edu/ark:/67531/metadc716726/ ark: ark:/67531/metadc716726 Other Information: PBD: 10 Jul 2001 Particulates Aerosols Remote Sensing Solar Radiation Climate Models 54 Environmental Sciences Radiations Boundary Layers Optical Radar Journal/Magazine/Newsletter 2001 ftunivnotexas https://doi.org/10.2172/783639 2019-02-09T23:08:04Z The ARM Program studies clouds, sunlight, and their interactions to understand how they affect Earth's climate. One of the many instruments used to look at clouds at the SGP CART site is the micropulse lidar (MPL; ''lidar'' was coined from ''light distance and ranging''). The ARM Program operates five MPLs. One is at the SGP central facility; one is at the North Slope of Alaska CART site in Barrow, Alaska; and three are for use at the Tropical Western Pacific site on Nauru and Manus islands. The MPL is a remote sensing instrument used to measure the height of overhead clouds and particles. An eye-safe laser in the system directs a beam vertically. As short pulses of laser light travel through the sky, they may encounter water droplets or aerosol particles in the atmosphere. These particles intercept the laser light and scatter it in different directions. Some of the scattered light returns to Earth's surface. A receiver on the ground collects backscattered light that bounces off atmospheric particles and uses the information to determine the distance between the ground and the particles. The signals detected are collected and plotted. The greater the signal strength, the more scatterers are present in the atmosphere. A plot based on this relationship provides a ''snapshot'' of the cloud overhead and shows the structure inside the cloud. In addition, the information gathered from the MPL can be used to determine the height of the planetary boundary layer, the well-mixed layer of the atmosphere that develops during daytime hours as the sun heats Earth's surface and sets up vertical mixing. Small airborne particles that can also be detected include smoke or dust carried into the atmosphere. This information is valuable to climate researchers. Because the MPL uses an eye-safe laser, it is not a danger to pilots of planes flying overhead and can be run continuously. The availability of continuous data is a great benefit to researchers in their efforts to incorporate the interactions of clouds and solar radiation into climate models. Another strength of the MPL is long-range detection. The MPL can detect clouds at altitudes above six miles and stratospheric aerosols as high as nine miles. Journal/Newspaper Barrow north slope Alaska University of North Texas: UNT Digital Library Pacific |
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Open Polar |
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University of North Texas: UNT Digital Library |
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ftunivnotexas |
| language |
English |
| topic |
Particulates Aerosols Remote Sensing Solar Radiation Climate Models 54 Environmental Sciences Radiations Boundary Layers Optical Radar |
| spellingShingle |
Particulates Aerosols Remote Sensing Solar Radiation Climate Models 54 Environmental Sciences Radiations Boundary Layers Optical Radar Holdridge, D.J. Atmospheric Radiation Measurement Program facilities newsletter, June 2001. |
| topic_facet |
Particulates Aerosols Remote Sensing Solar Radiation Climate Models 54 Environmental Sciences Radiations Boundary Layers Optical Radar |
| description |
The ARM Program studies clouds, sunlight, and their interactions to understand how they affect Earth's climate. One of the many instruments used to look at clouds at the SGP CART site is the micropulse lidar (MPL; ''lidar'' was coined from ''light distance and ranging''). The ARM Program operates five MPLs. One is at the SGP central facility; one is at the North Slope of Alaska CART site in Barrow, Alaska; and three are for use at the Tropical Western Pacific site on Nauru and Manus islands. The MPL is a remote sensing instrument used to measure the height of overhead clouds and particles. An eye-safe laser in the system directs a beam vertically. As short pulses of laser light travel through the sky, they may encounter water droplets or aerosol particles in the atmosphere. These particles intercept the laser light and scatter it in different directions. Some of the scattered light returns to Earth's surface. A receiver on the ground collects backscattered light that bounces off atmospheric particles and uses the information to determine the distance between the ground and the particles. The signals detected are collected and plotted. The greater the signal strength, the more scatterers are present in the atmosphere. A plot based on this relationship provides a ''snapshot'' of the cloud overhead and shows the structure inside the cloud. In addition, the information gathered from the MPL can be used to determine the height of the planetary boundary layer, the well-mixed layer of the atmosphere that develops during daytime hours as the sun heats Earth's surface and sets up vertical mixing. Small airborne particles that can also be detected include smoke or dust carried into the atmosphere. This information is valuable to climate researchers. Because the MPL uses an eye-safe laser, it is not a danger to pilots of planes flying overhead and can be run continuously. The availability of continuous data is a great benefit to researchers in their efforts to incorporate the interactions of clouds and solar radiation into climate models. Another strength of the MPL is long-range detection. The MPL can detect clouds at altitudes above six miles and stratospheric aerosols as high as nine miles. |
| author2 |
United States. Department of Energy. |
| format |
Journal/Newspaper |
| author |
Holdridge, D.J. |
| author_facet |
Holdridge, D.J. |
| author_sort |
Holdridge, D.J. |
| title |
Atmospheric Radiation Measurement Program facilities newsletter, June 2001. |
| title_short |
Atmospheric Radiation Measurement Program facilities newsletter, June 2001. |
| title_full |
Atmospheric Radiation Measurement Program facilities newsletter, June 2001. |
| title_fullStr |
Atmospheric Radiation Measurement Program facilities newsletter, June 2001. |
| title_full_unstemmed |
Atmospheric Radiation Measurement Program facilities newsletter, June 2001. |
| title_sort |
atmospheric radiation measurement program facilities newsletter, june 2001. |
| publisher |
Argonne National Laboratory |
| publishDate |
2001 |
| url |
https://doi.org/10.2172/783639 https://digital.library.unt.edu/ark:/67531/metadc716726/ |
| geographic |
Pacific |
| geographic_facet |
Pacific |
| genre |
Barrow north slope Alaska |
| genre_facet |
Barrow north slope Alaska |
| op_source |
Other Information: PBD: 10 Jul 2001 |
| op_relation |
rep-no: ANL/ER/NL-01-06 grantno: W-31-109-ENG-38 doi:10.2172/783639 osti: 783639 https://digital.library.unt.edu/ark:/67531/metadc716726/ ark: ark:/67531/metadc716726 |
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https://doi.org/10.2172/783639 |
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