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In situ observations of stratospheric HCl using three-mirror integrated cavity output spectroscopy

Jordan Wilkerson, D. S. Sayres, J. B. Smith, Norton Allen, M. Rivero, Mike Greenberg, T. Z. Martin, James G. Anderson

2021Atmospheric measurement techniques20 citationsDOIOpen Access PDF

Abstract

Abstract. Stratospheric HCl observations are an important diagnostic for the evaluation of catalytic processes that impact the ozone layer. We report here in situ balloon-borne observations of HCl employing an off-axis integrated cavity output spectrometer (OA-ICOS) fitted with a reinjection mirror. Laboratory assessments demonstrated that the spectrometer has a 90 % response time of 10 s to changes in HCl and a 30 s precision of 26 pptv. The instrument was deployed alongside an ozone instrument in August 2018 on a balloon-borne descent between 20–80 hPa (29–18 km altitude). The observations agreed with nearby satellite measurements made by the Earth Observing System Microwave Limb Sounder within 10 % on average. This is the first time that stratospheric measurements of HCl have been made with ICOS and the first time any cavity-enhanced HCl instrument has been tested in flight.

Topics & Concepts

Microwave Limb SounderSpectrometerStratosphereOzone layerEnvironmental scienceAtmospheric soundingAltitude (triangle)Remote sensingDescent (aeronautics)Total Ozone Mapping SpectrometerOzone depletionAtmospheric sciencesSatelliteOzoneIn situPhysicsOpticsMeteorologyGeologyAstronomyMathematicsGeometryAtmospheric Ozone and ClimateAtmospheric chemistry and aerosolsSpectroscopy and Laser Applications
In situ observations of stratospheric HCl using three-mirror integrated cavity output spectroscopy | Litcius