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Methodology for determining aerosol optical depth from Brewer 300-320-nm ozone measurements

TitleMethodology for determining aerosol optical depth from Brewer 300-320-nm ozone measurements
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2002
AuthorsMarenco, F., Di Sarra Alcide, and De Luisi J.
JournalApplied Optics
Volume41
Pagination1805-1814
ISSN00036935
Keywordsaerosol optical depth, Aerosols, Brewer spectrophotometers, Optical filters, Ozone, Photons, Radiation effects, Radiometers, Ultraviolet radiation, Ultraviolet spectrophotometers
Abstract

With a Brewer spectrophotometer, an estimation of total ozone is made from relative measurements of direct-sun ultraviolet radiation at six wavelengths from 300 to 320 nm. During normal operations, one of six neutral-density filters is selected automatically to maintain the detector in its linear response range. On the basis of these standard direct-sun observations, estimates of aerosol optical depth can be derived, provided that a calibration of the relative measurements is available for each neutral-density filter. To obtain the calibration, we implemented a routine to measure direct-sun signals with a fixed neutral-density filter and applied the Langley method to the measured photon counts. Results show that ifa sufficiently large number of cloud-free mornings or afternoons is available, a reliable calibration can be achieved even at sea-level sites that are characterized by large aerosol variability. The derived aerosol optical depths appear consistent with those measured independently by a multifilter rotating shadow-band radiometer. Existing relatively long-term series of direct-sun ozone measurements by Brewer instruments may be used for retrieval of aerosol optical depth. © 2002 Optical Society of America.

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Citation KeyMarenco20021805