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Photochemical modeling of molecular and atomic oxygen based on multiple nightglow emissions measured in situ during the Energy Transfer in the Oxygen Nightglow rocket campaign

Olexandr Lednyts’kyy, Christian von Savigny

2020Atmospheric chemistry and physics15 citationsDOIOpen Access PDF

Abstract

Abstract. Electronically excited states of molecular and atomic oxygen (six O2 and two O) were implemented in the proposed Multiple Airglow Chemistry (MAC) model as minor species coupled with each other as well as with the ground states of O2 and O to represent the photochemistry in the upper mesosphere and lower thermosphere (MLT) region. The MAC model combines chemical processes of well-known photochemical models related to identified O2 and O species and some additional processes. Concentrations of excited O2 and O species were retrieved using the MAC model on the basis of the multiple nightglow emissions measured in situ during the Energy Transfer in the Oxygen Nightglow (ETON) rocket campaign. The proposed retrieval procedure to obtain the concentrations of these minor species in the MLT region is implemented by avoiding a priori data sets. Unknown and poorly constrained reaction rates were tuned, and the reaction rates of the well-known models were updated with the MAC model by comparing in situ and evaluated emission profiles as well as in situ and retrieved O concentration profiles. As a result, precursors of O2 and O species responsible for the transitions considered in the MAC model are identified and validated.

Topics & Concepts

AirglowThermosphereExcited stateOxygenPhotochemistryRocket (weapon)MesosphereIn situChemistryAtomic oxygenAtmospheric sciencesEnvironmental scienceAtomic physicsPhysicsStratosphereIonosphereAerospace engineeringOrganic chemistryAstronomyEngineeringIonosphere and magnetosphere dynamicsAtmospheric Ozone and ClimateAtmospheric chemistry and aerosols
Photochemical modeling of molecular and atomic oxygen based on multiple nightglow emissions measured in situ during the Energy Transfer in the Oxygen Nightglow rocket campaign | Litcius