The impact of energetic electron precipitation on mesospheric hydroxyl during a year of solar minimum
Annet Eva Zawedde, Hilde Nesse Tyss{\o}y, Robert Hibbins, Patrick J., Espy, Linn-Kristine Glesnes {\O}degaard, Marit Irene Sandanger, and Johan, Stadsnes

TL;DR
This study investigates how energetic electron precipitation during a solar minimum influences mesospheric hydroxyl levels, revealing localized OH enhancements linked to geomagnetic activity and atmospheric dynamics.
Contribution
It introduces a new analysis technique for estimating precipitating electron fluxes and assesses their impact on mesospheric hydroxyl during solar minimum.
Findings
Localized OH enhancements over northern Russia linked to EEP.
OH enhancements over North America likely caused by atmospheric dynamics.
Substantial EEP-driven OH production occurs even during solar minimum.
Abstract
In 2008 a sequence of geomagnetic storms occurred triggered by high-speed solar wind streams from coronal holes. Improved estimates of precipitating fluxes of energetic electrons are derived from measurements on board the NOAA/POES 18 satellite using a new analysis technique. These fluxes are used to quantify the direct impact of energetic electron precipitation (EEP) during solar minimum on middle atmospheric hydroxyl (OH) measured from the Aura satellite. During winter, localized longitudinal density enhancements in the OH are observed over northern Russia and North America at corrected geomagnetic latitudes poleward of 55. Although the northern Russia OH enhancement is closely associated with increased EEP at these longitudes, the strength and location of the North America enhancement appear to be unrelated to EEP. This OH density enhancement is likely due to vertical…
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