2020
DOI: 10.5194/amt-13-1909-2020
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Issues related to the retrieval of stratospheric-aerosol particle size information based on optical measurements

Abstract: Stratospheric-sulfate aerosols play an important role in the physics and chemistry of the atmosphere. The radiative and chemical effects of stratospheric-sulfate aerosols depend critically on the aerosol particle size distribution and its variability. Despite extensive research spanning several decades, the scientific understanding of the particle size distribution of stratospheric aerosols is still incomplete. Particle size estimates (often represented by the median radius of an assumed monomodal log-normal d… Show more

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Cited by 15 publications
(17 citation statements)
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“…In particular, the second mode frequently seen in the in-situ OPC measurements by Deshler [20]-having a typical median radius of about 400 nm-has a significantly lower number density than the main mode with typical median radii of about 100 nm or less. For our work, a monomodal assumption is justified, even if further modes of very small particles are present because the measurement is dominated by the contribution of the main mode, as recently demonstrated by [14]. It also should be mentioned that, with every mode, additional parameters have to be taken into account.…”
Section: Retrieval Assumptionsmentioning
confidence: 92%
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“…In particular, the second mode frequently seen in the in-situ OPC measurements by Deshler [20]-having a typical median radius of about 400 nm-has a significantly lower number density than the main mode with typical median radii of about 100 nm or less. For our work, a monomodal assumption is justified, even if further modes of very small particles are present because the measurement is dominated by the contribution of the main mode, as recently demonstrated by [14]. It also should be mentioned that, with every mode, additional parameters have to be taken into account.…”
Section: Retrieval Assumptionsmentioning
confidence: 92%
“…Together with the extinction profiles retrieved in the previous section, all information is available to estimate the aerosol number density N A utilising the relationship between extinction coefficient, scattering cross section, and particle number density. Following Equations (7) and (14), the particle number density is calculated as:…”
Section: Particle Number Density Estimationmentioning
confidence: 99%
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