Optical properties of atmospheric aerosol using laser tweezers
Lead Research Organisation:
Royal Holloway University of London
Department Name: Earth Sciences
Abstract
The aim of the project is to look at the way in which light interacting with atmospheric aerosols has an effect on modern climate change. To do this
samples of atmospheric aerosols will be collected from various sources including oceanic, polar, forestry and urban, and extracted. Optical tweezers
will be used to trap individual aerosols in order to collect information on the way they scatter light by looking at the Mie spectra produced experimentally. By comparing this spectra to a theoretical Mie spectra produced
by a computer programme, it is then possible to calculate the aerosols radius and refractive index. Calculating this information allows for greater
understanding on how specific types of aerosols interact with light. This information can then be applied to a radiative transfer model to calculate the contribution of the different atmospheric aerosols, to modern climate change.
samples of atmospheric aerosols will be collected from various sources including oceanic, polar, forestry and urban, and extracted. Optical tweezers
will be used to trap individual aerosols in order to collect information on the way they scatter light by looking at the Mie spectra produced experimentally. By comparing this spectra to a theoretical Mie spectra produced
by a computer programme, it is then possible to calculate the aerosols radius and refractive index. Calculating this information allows for greater
understanding on how specific types of aerosols interact with light. This information can then be applied to a radiative transfer model to calculate the contribution of the different atmospheric aerosols, to modern climate change.
Studentship Projects
Project Reference | Relationship | Related To | Start | End | Student Name |
---|---|---|---|---|---|
NE/R012148/1 | 01/10/2017 | 31/12/2024 | |||
1955335 | Studentship | NE/R012148/1 | 01/10/2017 | 30/09/2021 | Megan McGrory |