Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals

A Lookup Table (LUT) was generated using eleven aerosol size distributions (ASD) (from urban to maritime with 9 logarithmic increments in between them). In the computations, aerosol size ranged from 0.001-10μm with 1.40 to 1.60 real and 0.000-0.030 imaginary refractive indices for the 355-nm and 532...

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Main Authors: Vallar, Edgar A., Bagtasa, Mannelyn Dela Cruz, Bagtasa, Gerry, Macalalad, Ernest P., Bangsal, Eric B., Galvez, Maria Cecilia D.
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Published: Animo Repository 2006
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Online Access:https://animorepository.dlsu.edu.ph/faculty_research/11230
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Institution: De La Salle University
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-104102023-11-03T06:47:52Z Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals Vallar, Edgar A. Bagtasa, Mannelyn Dela Cruz Bagtasa, Gerry Macalalad, Ernest P. Bangsal, Eric B. Galvez, Maria Cecilia D. A Lookup Table (LUT) was generated using eleven aerosol size distributions (ASD) (from urban to maritime with 9 logarithmic increments in between them). In the computations, aerosol size ranged from 0.001-10μm with 1.40 to 1.60 real and 0.000-0.030 imaginary refractive indices for the 355-nm and 532-nm LIDAR wavelengths. The extinction coefficients (õ)EXPT were calculated for the LIDAR data using Fernald’s inversion method. The ASD in the De La Salle University area was determined by comparing (õ532/õ355)EXPT to (õ532/õ355)THEO values found in the LUT. Results show that the ASD is affected by local meteorological conditions and by man’s activities (e.g., fireworks during New Year’s eve). 2006-07-01T07:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/11230 Faculty Research Work Animo Repository Atmospheric aerosols—Measurement 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 Atmospheric aerosols—Measurement
Physics
spellingShingle Atmospheric aerosols—Measurement
Physics
Vallar, Edgar A.
Bagtasa, Mannelyn Dela Cruz
Bagtasa, Gerry
Macalalad, Ernest P.
Bangsal, Eric B.
Galvez, Maria Cecilia D.
Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals
description A Lookup Table (LUT) was generated using eleven aerosol size distributions (ASD) (from urban to maritime with 9 logarithmic increments in between them). In the computations, aerosol size ranged from 0.001-10μm with 1.40 to 1.60 real and 0.000-0.030 imaginary refractive indices for the 355-nm and 532-nm LIDAR wavelengths. The extinction coefficients (õ)EXPT were calculated for the LIDAR data using Fernald’s inversion method. The ASD in the De La Salle University area was determined by comparing (õ532/õ355)EXPT to (õ532/õ355)THEO values found in the LUT. Results show that the ASD is affected by local meteorological conditions and by man’s activities (e.g., fireworks during New Year’s eve).
format text
author Vallar, Edgar A.
Bagtasa, Mannelyn Dela Cruz
Bagtasa, Gerry
Macalalad, Ernest P.
Bangsal, Eric B.
Galvez, Maria Cecilia D.
author_facet Vallar, Edgar A.
Bagtasa, Mannelyn Dela Cruz
Bagtasa, Gerry
Macalalad, Ernest P.
Bangsal, Eric B.
Galvez, Maria Cecilia D.
author_sort Vallar, Edgar A.
title Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals
title_short Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals
title_full Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals
title_fullStr Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals
title_full_unstemmed Aerosol size distribution derived from 355-nm and 532-nm Mie lidar signals
title_sort aerosol size distribution derived from 355-nm and 532-nm mie lidar signals
publisher Animo Repository
publishDate 2006
url https://animorepository.dlsu.edu.ph/faculty_research/11230
_version_ 1783960643903160320