Retrieval of refractive index and water content for the coating materials of aged black carbon aerosol based on optical properties: a theoretical analysis

IF 5.1 1区地球科学 Q1 ENVIRONMENTAL SCIENCES

Atmospheric Chemistry and Physics Pub Date : 2024-04-15 DOI:10.5194/egusphere-2024-1000

Jia Liu, Cancan Zhu, Donghui Zhou, Jinbao Han

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Abstract

Abstract. Water content in the coatings of aged black carbon (BC) aerosol can be reflected through complex refractive index. In this study, the retrieval of refractive index and water content for the non-absorbing coatings of BC aerosol during the hygroscopic growth (RH=0–95 %) based on scattering and absorption properties is theoretically investigated. Optical properties of morphologically realistic fractal BC aerosols are simulated using the Multiple Sphere T-matrix method (MSTM), the optical equivalent refractive index of coating material is retrieved based on the Mie theory, and the water content in coatings is further retrieved using effective medium theory. Results show that the scattering property has the best performance in retrieving refractive index and water content. The retrieval errors of the refractive index of heavily-aged BC aerosols are less than 10 % at high RHs, while partially-coated and thinly-coated BC have larger errors. The retrieved water contents are similar to those of refractive index and the errors range from 2 % to 63 % for heavily-coated BC. This study provides a helpful optical method to obtain the water content of BC coatings.

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基于光学特性的老化黑碳气溶胶涂层材料折射率和含水率检索：理论分析

摘要。老化黑碳（BC）气溶胶涂层中的水含量可以通过复折射率反映出来。本研究基于散射和吸收特性，从理论上研究了吸湿生长过程中（相对湿度=0-95%）黑碳气溶胶非吸收涂层的折射率和含水率。利用多球 T 矩阵法（MSTM）模拟了形态逼真的分形 BC 气溶胶的光学特性，并根据米氏理论求得了涂层材料的光学等效折射率，利用有效介质理论进一步求得了涂层中的含水量。结果表明，散射特性在检索折射率和含水率方面性能最佳。在高相对湿度条件下，重老化 BC 气溶胶折射率的检索误差小于 10%，而部分涂层和薄涂层 BC 的误差较大。回收的含水率与折射率相似，重涂层 BC 的误差在 2 % 到 63 % 之间。这项研究为获得 BC 涂层的含水率提供了一种有用的光学方法。

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来源期刊

Atmospheric Chemistry and Physics 地学-气象与大气科学

CiteScore

10.70

自引率

20.60%

发文量

702

审稿时长

6 months

期刊介绍： Atmospheric Chemistry and Physics (ACP) is a not-for-profit international scientific journal dedicated to the publication and public discussion of high-quality studies investigating the Earth''s atmosphere and the underlying chemical and physical processes. It covers the altitude range from the land and ocean surface up to the turbopause, including the troposphere, stratosphere, and mesosphere. The main subject areas comprise atmospheric modelling, field measurements, remote sensing, and laboratory studies of gases, aerosols, clouds and precipitation, isotopes, radiation, dynamics, biosphere interactions, and hydrosphere interactions. The journal scope is focused on studies with general implications for atmospheric science rather than investigations that are primarily of local or technical interest.