Scattering matrices of mineral aerosol particles at 441.6 nm and 632.8 nm

DOI: 
10.1029/2001JD900068
Publication date: 
16/08/2001
Main author: 
Volten, H
IAA authors: 
Authors: 
Volten, H; Munoz, O; Rol, E; de Haan, JF; Vassen, W; Hovenier, JW; Muinonen, K; Nousiainen, T
Journal: 
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
Publication type: 
Article
Volume: 
106
Pages: 
17375-17401
Number: 
Abstract: 
We present measured scattering matrices as functions of the scattering angle in the range 5 degrees -173 degrees and at wavelengths of 441.6 nm and 632.8 nm for seven distinct irregularly shaped mineral aerosol samples with properties representative of mineral aerosols present in the Earth's atmosphere. The aerosol samples, i.e., feldspar, red clay, quartz, loess, Pinatubo and Lokon volcanic ash, and Sahara sand, represent a wide variety of particle size (typical diameters between 0.1 and 100 mum) and composition (mainly silicates). We investigate the effects of differences in size and complex refractive index on the light-scattering properties of these irregular particles. In particular, we find that the measured scattering matrix elements when plotted as functions of the scattering angle are confined to rather limited domains. This similarity in scattering behavior justifies the construction of an average aerosol scattering matrix as a function of scattering angle to facilitate, for example, the use of our results for the interpretation of remote sensing data. We show that results of ray-optics calculations, using Gaussian random shapes, are able to describe the experimental data well when taking into account the high irregularity in shape of the aerosols, even when these aerosols are rather small. Using the results of ray-optics calculations, we interpret the differences found between the measured aerosol scattering matrices in terms of differences in complex refractive index and particle size relative to the wavelength. The importance of our results for studies of astronomical objects, such as planets, comets, asteroids, and circumstellar dust shells is discussed.
Database: 
WOK
Keywords: