- 1National Space Science Center,Chinese Academy of Science, Beijing,China
- 2Key Laboratory of Space Weather, National Satellite Meteorological Center, Beijing, China
The longitudinal structures of EIA have been extensively studied by using satellite data. However, there are few observations and studies, due to the weak ionosphere near midnight. In this paper, we studied the longitudinal structures of EIA at 02:00 local time during geomagnetically quiet period, benefitted from the satellite orbits and high sensitivity of FY‐3D IPM. We found that the wavenumber 4 longitudinal structures of EIA still exist at 02:00 local time and are obvious at equinoxes. Compared with SSUSI F18 data, FY‐3D IPM data showed different characteristics of wavenumber 4 component of EIA longitudinal structures. Because of the different local time of data between SSUSI F18 and FY‐3D IPM, we consider that the longitudinal wavenumber 4 structures of EIA after midnight originated from the cross‐equatorial neutral wind rather than the electric field modulated by zonal neutral wind in daytime.
How to cite: Zhang, B., Fu, L., Mao, T., Jiang, F., and Wang, J.: Wavenumber 4 Longitudinal Structure of the Ionosphere after Midnight Based on the OI135.6 nm Night Airglow Using FY‐3D Ionospheric Photometer, EGU General Assembly 2026, Vienna, Austria, 3–8 May 2026, EGU26-21711, https://doi.org/10.5194/egusphere-egu26-21711, 2026.
