Response of NO 5.3 μm Emission to the Geomagnetic Storm on 24 April 2023

The response of NO emission at 5.3 mu m in the thermosphere to the geomagnetic storm on 24 April 2023 is analyzed using TIMED/SABER observations and TIEGCM simulations. Both the observations and the simulations indicate a significant enhancement in NO emission during the storm. Observations show two peaks around 50 degrees S/N in the altitude-latitude distribution of NO emission and its relative variation. Additionally, the peak emission and enhancement are stronger on the nightside compared with the dayside. The peak altitude in the Northern Hemisphere is approximately 2-10 km higher than in the Southern Hemisphere; meanwhile, the peak altitude on the dayside is approximately 2-8 km higher than that on the nightside. Simulations reveal three peaks around 50 degrees S, the equator, and 65 degrees N, with peak altitudes at higher latitudes being slightly lower than those observed. In general, the altitude-latitude distribution structure of the relative variation in simulated NO emission matches observations, with two peaks around 50 degrees S/N. TIEGCM simulations suggest that the increase in NO density and temperature during a geomagnetic storm can lead to an increase in NO emission at most altitudes and latitudes. Furthermore, the significant enhancement around 50 degrees S/N is mainly attributed to the changes in NO density.