1992
DOI: 10.1117/12.138527
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Aerosol size distribution measurements using a multispectral lidar system

Abstract: A new inversion algorithm has been developed to determine the aerosol size distribution, from LIDAR signals obtained at several wavelengths. This algorithm is based on a non linear fit of the backscattered measurements using a set of predetermined functions. Two function types have been taken into account to describe the size distribution of tropospheric aerosols: Junge distribution for clear atmosphere and log normal distribution for fogs and clouds. This method has been tested using a four-wavelengths Lidar … Show more

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Cited by 7 publications
(3 citation statements)
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“…Having only three parameters, the lognormal function can be used to fit even sparse data, which may include as few as three measurements. These data might be concentrations deduced from impactors [Goodman et al, 1994], dustsonde instruments [Pinnick et al, 1976;Deshler et al, 1993], lidar backscatter [Kolenda et al, 1992], aerosol extinction [Wang et al, 1989;Yue et al, 1986] or some combination of these observations. When additional distinct measurements are available (either in particle radius or in wavelength for optical sensors), more parameters are available to be fitted.…”
Section: Introductionmentioning
confidence: 99%
“…Having only three parameters, the lognormal function can be used to fit even sparse data, which may include as few as three measurements. These data might be concentrations deduced from impactors [Goodman et al, 1994], dustsonde instruments [Pinnick et al, 1976;Deshler et al, 1993], lidar backscatter [Kolenda et al, 1992], aerosol extinction [Wang et al, 1989;Yue et al, 1986] or some combination of these observations. When additional distinct measurements are available (either in particle radius or in wavelength for optical sensors), more parameters are available to be fitted.…”
Section: Introductionmentioning
confidence: 99%
“…The gaseous H:SO4 condenses on preexisting aerosol drops and condensation nuclei swelling them in size and, for highly supersaturated conditions, may act through homogeneous-heteromolecular nucleation to form new aerosols [Hamill et al, 1977]. The volcanic enhancement of stratospheric aerosols has been observed to increase their number concentration by a factor of 10 and to persist for several years, for example, following the eruption of E1 Chich6n [Hofmann and Rosen, 1983; [Kolenda et al, 1992] or particle concentration, mean size, and surface area [Beyerle et al, 1994]. The Stratospheric Aerosol and Gas Experiment II (SAGE II) measures extinction profiles at wavelengths of 0.385, 0.453, 0.525, 0.6, and 1.02 gm using a solar occultation technique [McCormick, 1987].…”
Section: Introductionmentioning
confidence: 99%
“…Details to the retrieval technique may be found in Refs . 19,20,22). From the basic parameters of the size distribution the extinction coefficient, the optical depth, the surface-area, and mass concentration can be calculated.…”
Section: Multiwavelength-lidar Techniquementioning
confidence: 99%