Abstract
AbstractThis study presents the statistical features of ionospheric E‐F coupling and interhemispheric coupling at midlatitudes. Nighttime ionospheric E and F region irregularity occurrences are investigated by using Constellation Observing System for Meteorology, Ionosphere, and Climate (COSMIC) radio occultation measurements during 2006–2018. We presented four typical events of simultaneous observations of E and F region irregularities in the local hemisphere and F region irregularities in both conjugate hemispheres. Results of case studies indicate the coincidence of ionospheric irregularities in both E and F regions, as well as the coincidence of ionospheric irregularities in both F regions of two conjugate hemispheres. Statistical analysis of occurrences of E and F region irregularities shows that the concurrence of ionospheric irregularities in both E and F regions reaches a maximum (nearly 70%) during June (December) solstice in the Northern (Southern) Hemisphere. Nearly 50% (45%) of the F region irregularity in the Northern (Southern) Hemisphere occurs simultaneously with F region irregularity occurrence in the Southern (Northern) Hemisphere during December (June) solstice. These results provide the observational evidences showing that the effect of E‐F coupling and interhemispheric coupling may be important in generation of midlatitude nighttime F region irregularity. In addition, our results also reveal that mapping efficiency of electrodynamic coupling has a different seasonal variation in the Northern and Southern Hemispheres, which shows dependence on both the integrated Pedersen conductivity of F region ( ) and the integrated Hall conductivity of ES layer ( ).
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call