Issue 10, 2023

Optical trapping and light scattering in atmospheric aerosol science

Abstract

Aerosol particles are ubiquitous in the atmosphere, and currently contribute a large uncertainty to climate models. Part of the endeavour to reduce this uncertainty takes the form of improving our understanding of aerosol at the microphysical level, thus enabling chemical and physical processes to be more accurately represented in larger scale models. In addition to modeling efforts, there is a need to develop new instruments and methodologies to interrogate the physicochemical properties of aerosol. This perspective presents the development, theory, and application of optical trapping, a powerful tool for single particle investigations of aerosol. After providing an overview of the role of aerosol in Earth's atmosphere and the microphysics of these particles, we present a brief history of optical trapping and a more detailed look at its application to aerosol particles. We also compare optical trapping to other single particle techniques. Understanding the interaction of light with single particles is essential for interpreting experimental measurements. In the final part of this perspective, we provide the relevant formalism for understanding both elastic and inelastic light scattering for single particles. The developments discussed here go beyond Mie theory and include both how particle and beam shape affect spectra. Throughout the entirety of this work, we highlight numerous references and examples, mostly from the last decade, of the application of optical trapping to systems that are relevant to the atmospheric aerosol.

Graphical abstract: Optical trapping and light scattering in atmospheric aerosol science

Article information

Article type
Perspective
Submitted
11 Nov 2022
Accepted
15 Feb 2023
First published
21 Feb 2023

Phys. Chem. Chem. Phys., 2023,25, 7066-7089

Optical trapping and light scattering in atmospheric aerosol science

A. Rafferty, B. Vennes, A. Bain and T. C. Preston, Phys. Chem. Chem. Phys., 2023, 25, 7066 DOI: 10.1039/D2CP05301B

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