Polarization lidar at summit, greenland, for the Detection of cloud phase and particle orientation

Ryan R. Neely; Matthew Hayman; Robert Stillwell; Jeffrey P. Thayer; R. Michael Hardesty; Michael O'Neill; Matthew D. Shupe; Catherine Alvarez

doi:10.1175/JTECH-D-12-00101.1

Polarization lidar at summit, greenland, for the Detection of cloud phase and particle orientation

Ryan R. Neely, Matthew Hayman, Robert Stillwell, Jeffrey P. Thayer, R. Michael Hardesty, Michael O'Neill, Matthew D. Shupe, Catherine Alvarez

Remote Sensing Facility

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

Accurate measurements of cloud properties are necessary to document the full range of cloud conditions and characteristics. The Cloud, Aerosol Polarization and Backscatter Lidar (CAPABL) has been developed to address this need by measuring depolarization, particle orientation, and the backscatter of clouds and aerosols. The lidar is located at Summit, Greenland (72.68N, 38.58W; 3200 mMSL), as part of the Integrated Characterization of Energy, Clouds, Atmospheric State, and Precipitation at Summit Project and NOAA's Earth System Research Laboratory's Global Monitoring Division's lidar network. Here, the instrument is described with particular emphasis placed upon the implementation of new polarization methods developed to measure particle orientation and improve the overall accuracy of lidar depolarization measurements. Initial results from the lidar are also shown to demonstrate the ability of the lidar to observe cloud properties.

Original language	English
Pages (from-to)	1635-1655
Number of pages	21
Journal	Journal of Atmospheric and Oceanic Technology
Volume	30
Issue number	8
DOIs	https://doi.org/10.1175/JTECH-D-12-00101.1
State	Published - 2013

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10.1175/JTECH-D-12-00101.1

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title = "Polarization lidar at summit, greenland, for the Detection of cloud phase and particle orientation",

abstract = "Accurate measurements of cloud properties are necessary to document the full range of cloud conditions and characteristics. The Cloud, Aerosol Polarization and Backscatter Lidar (CAPABL) has been developed to address this need by measuring depolarization, particle orientation, and the backscatter of clouds and aerosols. The lidar is located at Summit, Greenland (72.68N, 38.58W; 3200 mMSL), as part of the Integrated Characterization of Energy, Clouds, Atmospheric State, and Precipitation at Summit Project and NOAA's Earth System Research Laboratory's Global Monitoring Division's lidar network. Here, the instrument is described with particular emphasis placed upon the implementation of new polarization methods developed to measure particle orientation and improve the overall accuracy of lidar depolarization measurements. Initial results from the lidar are also shown to demonstrate the ability of the lidar to observe cloud properties.",

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T1 - Polarization lidar at summit, greenland, for the Detection of cloud phase and particle orientation

AU - Neely, Ryan R.

AU - Hayman, Matthew

AU - Stillwell, Robert

AU - Thayer, Jeffrey P.

AU - Hardesty, R. Michael

AU - O'Neill, Michael

AU - Shupe, Matthew D.

AU - Alvarez, Catherine

PY - 2013

Y1 - 2013

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AB - Accurate measurements of cloud properties are necessary to document the full range of cloud conditions and characteristics. The Cloud, Aerosol Polarization and Backscatter Lidar (CAPABL) has been developed to address this need by measuring depolarization, particle orientation, and the backscatter of clouds and aerosols. The lidar is located at Summit, Greenland (72.68N, 38.58W; 3200 mMSL), as part of the Integrated Characterization of Energy, Clouds, Atmospheric State, and Precipitation at Summit Project and NOAA's Earth System Research Laboratory's Global Monitoring Division's lidar network. Here, the instrument is described with particular emphasis placed upon the implementation of new polarization methods developed to measure particle orientation and improve the overall accuracy of lidar depolarization measurements. Initial results from the lidar are also shown to demonstrate the ability of the lidar to observe cloud properties.

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Polarization lidar at summit, greenland, for the Detection of cloud phase and particle orientation

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