Atmospheric Lunar Tide in the Low Latitude Thermosphere-Ionosphere

Ruth S Lieberman; Brian J Harding; Roderick A Heelis; Nicholas M Pedatella; Jeffrey M Forbes; Jens Oberheide

doi:10.1029/2022GL098078

Atmospheric Lunar Tide in the Low Latitude Thermosphere-Ionosphere

Geophys Res Lett. 2022 Jun 16;49(11):e2022GL098078. doi: 10.1029/2022GL098078. Epub 2022 May 31.

Authors

Ruth S Lieberman¹, Brian J Harding², Roderick A Heelis³, Nicholas M Pedatella⁴, Jeffrey M Forbes⁵, Jens Oberheide⁶

Affiliations

¹ NASA Goddard Space Flight Center Greenbelt MD USA.
² University of California Berkeley CA USA.
³ University of Texas Dallas TX USA.
⁴ University Corporation for Atmospheric Research Boulder CO USA.
⁵ University of Colorado Boulder CO USA.
⁶ Clemson University Clemson SC USA.

Abstract

We present simultaneous, independent measurements of the atmospheric semidiurnal lunar tide in neutral winds and plasma velocities from NASA's Ionospheric Connection Explorer, and in atomic oxygen 135.6 nm airglow measured by the Global-scale Observations of the Limb and Disk. Westward tidal winds near 115 km at the magnetic equator occur during part of the upward phase of the in-situ plasma drift. Vertical motions associated with the field-aligned plasma velocity occur away from the magnetic equator. The morphology of the lunar tide, and the phasing between the airglow and plasma velocities are consistent with E × B drift as a mechanism for linking neutral wind and plasma perturbations. This work provides the first observational quantification of global-scale E- and F-region coupling through E × B and field-aligned vertical drifts.