35 citations as recorded by crossref.

1. Interplanetary magnetic field control of fast azimuthal flows in the nightside high‐latitude ionosphere A. Grocott et al.
2. Universal Time Variations in the Magnetosphere and the Effect of CME Arrival Time: Analysis of the February 2022 Event that Led to the Loss of Starlink Satellites M. Lockwood et al.
3. A new methodology for the development of high‐latitude ionospheric climatologies and empirical models G. Chisham
4. Review of Ionospheric Effects of Solar Wind Magnetosphere Coupling in the Context of the Expanding Contracting Polar Cap Boundary Model M. Lester et al.
5. Magnetic reconnection during steady magnetospheric convection and other magnetospheric modes B. Hubert et al.
6. Seasonal and interplanetary magnetic field–dependent polar cap contraction during substorm expansion phase K. Laundal et al.
7. Variations in the near-ground electric field at high latitudes and the potential drop across the polar cap during morning polar substorms N. Kleimenova et al.
8. Dynamic subauroral ionospheric electric fields observed by the Falkland Islands radar during the course of a geomagnetic storm A. Grocott et al.
9. The pulsed nature of the nightside contribution to polar cap convection: repetitive substorm activity under steady interplanetary driving P. Sandholt et al.
10. Dusk‐Dawn Asymmetries in SuperDARN Convection Maps M. Walach et al.
11. Response of large‐scale ionospheric convection to substorm expansion onsets: A case study Y. Miyashita et al.
12. Effects of Substorms on High‐Latitude Upper Thermospheric Winds Y. Zou et al.
13. Global-scale magnetosphere convection driven by dayside magnetic reconnection L. Dai et al.
14. Transpolar voltage and polar cap flux during the substorm cycle and steady convection events M. Lockwood et al.
15. Space- and ground-based investigations of solar wind–magnetosphere–ionosphere coupling S. Milan et al.
16. Dayside and nightside reconnection rates inferred from IMAGE FUV and Super Dual Auroral Radar Network data B. Hubert et al.
17. Review of Environmental Monitoring by Means of Radio Waves in the Polar Regions: From Atmosphere to Geospace L. Alfonsi et al.
18. The Heppner‐Maynard Boundary measured by SuperDARN as a proxy for the latitude of the auroral oval S. Imber et al.
19. Substorms and polar cap convection: the 10 January 2004 interplanetary CME case Y. Andalsvik et al.
20. Contribution of magnetotail reconnection to the cross-polar cap electric potential drop E. Gordeev et al.
21. Contributions of the driven process and the loading‐unloading process during substorms: A study based on the IMAGE‐SI12 imager C. Blockx et al.
22. Successive substorm expansions during a period of prolonged northward interplanetary magnetic field Y. Miyashita et al.
23. Testing nowcasts of the ionospheric convection from the expanding and contracting polar cap model M. Walach et al.
24. SuperDARN Observations of the Two Component Model of Ionospheric Convection A. Grocott et al.
25. Magnetic flux transport in the Dungey cycle: A survey of dayside and nightside reconnection rates S. Milan et al.
26. A decade of the Super Dual Auroral Radar Network (SuperDARN): scientific achievements, new techniques and future directions G. Chisham et al.
27. Substorm Impact on Dayside Ionospheric Currents R. Elhawary et al.
28. The influence of IMF clock angle timescales on the morphology of ionospheric convection A. Grocott & S. Milan
29. Solar–wind–magnetosphere–ionosphere interactions in the Earth's plasma environment A. Coates et al.
30. Solar wind dependence of energy coupling between solar wind and magnetosphere during intense northward IMFs H. Luo et al.
31. Differences in the characteristics and triggering mechanisms of two successive AL index onsets on 21st January 2005 S. Sinha et al.
32. Postmidnight convection dynamics during substorm expansion phase J. Liang et al.
33. Midnight sector observations of auroral omega bands J. Wild et al.
34. Superposed epoch analysis of the ionospheric convection evolution during substorms: IMF BY dependence A. Grocott et al.
35. Dayside and nightside magnetic field responses at 780 km altitude to dayside reconnection K. Snekvik et al.