Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar
<p>The depolarization ratio is a valuable parameter for lidar-based aerosol categorization. Usually, the aerosol particle depolarization ratio is determined at relatively short wavelengths of 355 nm and/or 532 nm, but some multi-wavelength studies including longer wavelengths indicate strong s...
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Copernicus Publications
2021-04-01
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| Series: | Atmospheric Chemistry and Physics |
| Online Access: | https://acp.copernicus.org/articles/21/5807/2021/acp-21-5807-2021.pdf |
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doaj-d12a158e46594c26bbedd47f125274e12021-04-19T05:29:09ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242021-04-01215807582010.5194/acp-21-5807-2021Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidarV. Vakkari0V. Vakkari1H. Baars2S. Bohlmann3S. Bohlmann4J. Bühl5M. Komppula6R.-E. Mamouri7R.-E. Mamouri8E. J. O'Connor9E. J. O'Connor10Finnish Meteorological Institute, Helsinki, 00101, FinlandAtmospheric Chemistry Research Group, Chemical Resource Beneficiation, North-West University, Potchefstroom, South AfricaLeibniz Institute for Tropospheric Research, Leipzig, GermanyFinnish Meteorological Institute, Kuopio, 70211, FinlandDepartment of Applied Physics, University of Eastern Finland, Kuopio, FinlandLeibniz Institute for Tropospheric Research, Leipzig, GermanyFinnish Meteorological Institute, Kuopio, 70211, FinlandDepartment of Civil Engineering and Geomatics, Cyprus University of Technology, Limassol, CyprusERATOSTHENES Centre of Excellence, Limassol, CyprusFinnish Meteorological Institute, Helsinki, 00101, FinlandDepartment of Meteorology, University of Reading, Reading, UK<p>The depolarization ratio is a valuable parameter for lidar-based aerosol categorization. Usually, the aerosol particle depolarization ratio is determined at relatively short wavelengths of 355 nm and/or 532 nm, but some multi-wavelength studies including longer wavelengths indicate strong spectral dependency. Here, we investigate the capabilities of Halo Photonics StreamLine Doppler lidars to retrieve the particle linear depolarization ratio at the 1565 nm wavelength. We utilize collocated measurements with another lidar system, PollyXT at Limassol, Cyprus, and at Kuopio, Finland, to compare the depolarization ratio observed by the two systems. For mineral-dust-dominated cases we find typically a slightly lower depolarization ratio at 1565 nm than at 355 and 532 nm. However, for dust mixed with other aerosol we find a higher depolarization ratio at 1565 nm. For polluted marine aerosol we find a marginally lower depolarization ratio at 1565 nm compared to 355 and 532 nm. For mixed spruce and birch pollen we find a slightly higher depolarization ratio at 1565 nm compared to 532 nm. Overall, we conclude that Halo Doppler lidars can provide a particle linear depolarization ratio at the 1565 nm wavelength at least in the lowest 2–3 km above ground.</p>https://acp.copernicus.org/articles/21/5807/2021/acp-21-5807-2021.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
V. Vakkari V. Vakkari H. Baars S. Bohlmann S. Bohlmann J. Bühl M. Komppula R.-E. Mamouri R.-E. Mamouri E. J. O'Connor E. J. O'Connor |
| spellingShingle |
V. Vakkari V. Vakkari H. Baars S. Bohlmann S. Bohlmann J. Bühl M. Komppula R.-E. Mamouri R.-E. Mamouri E. J. O'Connor E. J. O'Connor Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar Atmospheric Chemistry and Physics |
| author_facet |
V. Vakkari V. Vakkari H. Baars S. Bohlmann S. Bohlmann J. Bühl M. Komppula R.-E. Mamouri R.-E. Mamouri E. J. O'Connor E. J. O'Connor |
| author_sort |
V. Vakkari |
| title |
Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar |
| title_short |
Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar |
| title_full |
Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar |
| title_fullStr |
Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar |
| title_full_unstemmed |
Aerosol particle depolarization ratio at 1565 nm measured with a Halo Doppler lidar |
| title_sort |
aerosol particle depolarization ratio at 1565 nm measured with a halo doppler lidar |
| publisher |
Copernicus Publications |
| series |
Atmospheric Chemistry and Physics |
| issn |
1680-7316 1680-7324 |
| publishDate |
2021-04-01 |
| description |
<p>The depolarization ratio is a valuable parameter for
lidar-based aerosol categorization. Usually, the aerosol particle depolarization
ratio is determined at relatively short wavelengths of 355 nm and/or 532 nm,
but some multi-wavelength studies including longer wavelengths indicate
strong spectral dependency. Here, we investigate the capabilities of Halo
Photonics StreamLine Doppler lidars to retrieve the particle linear
depolarization ratio at the 1565 nm wavelength. We utilize collocated
measurements with another lidar system, PollyXT at Limassol, Cyprus, and at
Kuopio, Finland, to compare the depolarization ratio observed by the two
systems. For mineral-dust-dominated cases we find typically a slightly lower
depolarization ratio at 1565 nm than at 355 and 532 nm. However, for dust
mixed with other aerosol we find a higher depolarization ratio at 1565 nm. For
polluted marine aerosol we find a marginally lower depolarization ratio at
1565 nm compared to 355 and 532 nm. For mixed spruce and birch pollen we
find a slightly higher depolarization ratio at 1565 nm compared to 532 nm.
Overall, we conclude that Halo Doppler lidars can provide a particle linear
depolarization ratio at the 1565 nm wavelength at least in the lowest 2–3 km
above ground.</p> |
| url |
https://acp.copernicus.org/articles/21/5807/2021/acp-21-5807-2021.pdf |
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