Implementation of a chemical background method for atmospheric OH measurements by laser-induced fluorescence: characterisation and observations from the UK and China
Hydroxyl (OH) and hydroperoxy (HO2) radicals are central to the understanding of atmospheric chemistry. Owing to their short lifetimes, these species are frequently used to test the accuracy of model predictions and their underlying chemical mechanisms. In forested environments, laser-induced fluore...
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Veröffentlicht in: | Atmospheric measurement techniques 2020-06, Vol.13 (6), p.3119-3146 |
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Sprache: | eng |
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Zusammenfassung: | Hydroxyl (OH) and hydroperoxy (HO2) radicals are
central to the understanding of atmospheric chemistry. Owing to their short
lifetimes, these species are frequently used to test the accuracy of model
predictions and their underlying chemical mechanisms. In forested
environments, laser-induced fluorescence–fluorescence assay by gas
expansion (LIF–FAGE) measurements of OH have often shown substantial
disagreement with model predictions, suggesting the presence of unknown OH
sources in such environments. However, it is also possible that the
measurements have been affected by instrumental artefacts, due to the
presence of interfering species that cannot be discriminated using the
traditional method of obtaining background signals via modulation of the
laser excitation wavelength (“OHwave”). The interference hypothesis can be
tested by using an alternative method to determine the OH background signal,
via the addition of a chemical scavenger prior to sampling of ambient air
(“OHchem”). In this work, the Leeds FAGE instrument was modified to
include such a system to facilitate measurements of OHchem, in which propane
was used to selectively remove OH from ambient air using an inlet
pre-injector (IPI). The IPI system was characterised in detail, and it was
found that the system did not reduce the instrument sensitivity towards OH
( 99 %) without the removal
of OH formed inside the fluorescence cell ( |
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ISSN: | 1867-8548 1867-1381 1867-8548 |
DOI: | 10.5194/amt-13-3119-2020 |