Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum

Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum

We performed a lidar observation of Asian dust aerosols for the first time using a white light lidar system. The lidar used in the observation utilized a coherent white light continuum generated in Kr gas as a light source and was used as a three-wavelength Mie-scattering lidar having a depolarizati...

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Main Authors: Somekawa, Toshihiro, Yamanaka, Chihiro, Fujita, Masayuki, Galvez, Maria Cecilia
Format: text
Published: Animo Repository 2008
Subjects:
Dust > Asia
Optical radar
Wavelengths
Physics
Online Access:https://animorepository.dlsu.edu.ph/faculty_research/1969
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Institution: De La Salle University
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-29682021-08-06T00:06:34Z Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum Somekawa, Toshihiro Yamanaka, Chihiro Fujita, Masayuki Galvez, Maria Cecilia We performed a lidar observation of Asian dust aerosols for the first time using a white light lidar system. The lidar used in the observation utilized a coherent white light continuum generated in Kr gas as a light source and was used as a three-wavelength Mie-scattering lidar having a depolarization measurement capability at 450, 550, and 800 nm. Lidar depolarization ratios of 0.30-0.70 at 800nm were measured. These data reveal a higher depolarization ratio than usual (normally almost zero) in the lower troposphere. Thus, the white light lidar can identify Asian dust particles that pose a threat to cross-border pollution in Japan. © 2008 The Japan Society of Applied Physics. 2008-04-18T07:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/1969 Faculty Research Work Animo Repository Dust--Asia Optical radar Wavelengths Physics
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Dust--Asia
Optical radar
Wavelengths
Physics
spellingShingle Dust--Asia
Optical radar
Wavelengths
Physics
Somekawa, Toshihiro
Yamanaka, Chihiro
Fujita, Masayuki
Galvez, Maria Cecilia
Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum
description We performed a lidar observation of Asian dust aerosols for the first time using a white light lidar system. The lidar used in the observation utilized a coherent white light continuum generated in Kr gas as a light source and was used as a three-wavelength Mie-scattering lidar having a depolarization measurement capability at 450, 550, and 800 nm. Lidar depolarization ratios of 0.30-0.70 at 800nm were measured. These data reveal a higher depolarization ratio than usual (normally almost zero) in the lower troposphere. Thus, the white light lidar can identify Asian dust particles that pose a threat to cross-border pollution in Japan. © 2008 The Japan Society of Applied Physics.
format text
author Somekawa, Toshihiro
Yamanaka, Chihiro
Fujita, Masayuki
Galvez, Maria Cecilia
author_facet Somekawa, Toshihiro
Yamanaka, Chihiro
Fujita, Masayuki
Galvez, Maria Cecilia
author_sort Somekawa, Toshihiro
title Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum
title_short Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum
title_full Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum
title_fullStr Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum
title_full_unstemmed Observation of Asian dust aerosols with depolarization lidar using a coherent white light continuum
title_sort observation of asian dust aerosols with depolarization lidar using a coherent white light continuum
publisher Animo Repository
publishDate 2008
url https://animorepository.dlsu.edu.ph/faculty_research/1969
_version_ 1707787066923810816

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