| Abstract |
Dust aerosol is a key component in global radiative forcing and climate modeling. We developed a mineralogy‐resolved spectral optical property model for dust aerosols. The model incorporates nine mineral groups and applies the effective medium methods to obtain the spectral complex refractive indices of inhomogeneous dust particles. This study considers 5,000 sets of dust mineral composition mixtures along with the use of the bimodal particle size distribution. We calculate the bulk properties of these samples in a wide spectral range from 0.2 to 50 μm using a comprehensive database of hexahedral dust single‐scattering properties. Through sensitivity analyses, this study reveals that the illite and hematite components substantially affect the optical properties of dust. Furthermore, the effective radii of both the fine‐mode and the coarse‐mode dust particles have significant impacts on the bulk optical properties, albeit to varying degrees. |
| Authors |
Yuheng Zhang  , Masanori Saito  , Ping Yang , Gregory L. Schuster , Charles Trepte
|
| Journal Info |
Wiley-Blackwell | Journal of Geophysical Research: Atmospheres , vol: 129
, iss: 10
|
| Publication Date |
5/11/2024 |
| ISSN |
2169-897X |
Type |
article |
| Open Access |
hybrid
|
| DOI |
https://doi.org/10.1029/2023jd040181 |
| Keywords |
Aerosols (Score: 0.614528) , Aerosol Formation (Score: 0.596972) , Atmospheric Aerosols (Score: 0.575361) , Atmospheric Dust (Score: 0.555137) , Atmospheric Composition (Score: 0.517026)
|
