Influence of NaCl concentration on the optical scattering properties of water-based aerosols

We present the characterization of several atmospheric aerosol analogs in a tabletop chamber and an analysis of how the concentration of NaCl present in these aerosols influences their bulk optical properties. Atmospheric aerosols (e.g., fog and haze) degrade optical signal via light–aerosol interac...

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Veröffentlicht in:Applied optics (2004) 2023-07, Vol.62 (20), p.5571-5579
Hauptverfasser: Pattyn, Christian A., Zenker, Jake P., Redman, Brian J., van der Laan, John D., Sanchez, Andres L., Westlake, Karl, Patel, Lekha, Bentz, Brian Z., Wright, Jeremy B.
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Sprache:eng
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Zusammenfassung:We present the characterization of several atmospheric aerosol analogs in a tabletop chamber and an analysis of how the concentration of NaCl present in these aerosols influences their bulk optical properties. Atmospheric aerosols (e.g., fog and haze) degrade optical signal via light–aerosol interactions causing scattering and absorption, which can be described by Mie theory. This attenuation is a function of the size distribution and number concentration of droplets in the light path. These properties are influenced by ambient conditions and the droplet’s composition, as described by Köhler theory. It is therefore possible to tune the wavelength-dependent bulk optical properties of an aerosol by controlling droplet composition. We present experimentation wherein we generated multiple microphysically and optically distinct atmospheric aerosol analogs using salt water solutions with varying concentrations of NaCl. The results demonstrate that changing the NaCl concentration has a clear and predictable impact on the microphysical and optical properties of the aerosol.
ISSN:1559-128X
2155-3165
1539-4522
DOI:10.1364/AO.492544