54 citations as recorded by crossref.

1. Response of the incompressible ionosphere to the compression of the magnetosphere during the geomagnetic sudden commencements T. Kikuchi et al.
2. Daytime equatorial geomagnetic H field response to the growth phase and expansion phase onset of isolated substorms: Case studies and their implications J. Sastri et al.
3. Field‐aligned current effects on midlatitude geomagnetic sudden commencements T. Kikuchi et al.
4. Theory, modeling, and integrated studies in the Arase (ERG) project K. Seki et al.
5. Low latitude storm time ionospheric electrodynamics B. Fejer
6. Substorm Overshielding Electric Field at Low Latitude on the Nightside as Observed by the HF Doppler Sounder and Magnetometers K. Hashimoto et al.
7. Low‐latitude ionospheric disturbance electric field effects during the recovery phase of the 19–21 October 1998 magnetic storm B. Fejer & J. Emmert
8. Low‐latitude ionospheric electric and magnetic field disturbances in response to solar wind pressure enhancements C. Huang et al.
9. Significant Electric Field Perturbations in Low Latitude Ionosphere due to the Passage of Two Consecutive ICMEs During 6–8 September 2017 D. Rout et al.
10. Equatorial ionospheric responses to high‐intensity long‐duration auroral electrojet activity (HILDCAA) J. Sobral et al.
11. On the discrimination between magnetospheric and ionospheric contributions on the ground manifestation of sudden impulses M. Piersanti & U. Villante
12. Instantaneous Achievement of the Hall and Pedersen–Cowling Current Circuits in Northern and Southern Hemispheres During the Geomagnetic Sudden Commencement on 12 May 2021 T. Kikuchi et al.
13. Equatorial Electrojet (EEJ) Response to Interplanetary (IP) Shocks B. Nilam et al.
14. Reproduction of Ground Magnetic Variations During the SC and the Substorm From the Global Simulation and Biot‐Savart's Law T. Tanaka et al.
15. On the nature of response of dayside equatorial geomagnetic H-field to sudden magnetospheric compressions J. Hanumath Sastri et al.
16. Penetration of magnetospheric electric fields to the equator and their effects on the low‐latitude ionosphere during intense geomagnetic storms B. Veenadhari et al.
17. Local time variation of the amplitude of geomagnetic sudden commencements (SC) and SC-associated polar cap potential T. Araki et al.
18. Transmission line model for the near‐instantaneous transmission of the ionospheric electric field and currents to the equator T. Kikuchi
19. Response of the magnetosphere–ionosphere system to sudden changes in solar wind dynamic pressure S. Fujita
20. On the effect of near-equatorial thunderstorms on the global distribution of ionospheric potential M. Rycroft et al.
21. Magnetic latitude and local time dependence of the amplitude of geomagnetic sudden commencements A. Shinbori et al.
22. Radar studies of midlatitude ionospheric plasma drifts L. Scherliess et al.
23. Low Latitude Ionospheric Electrodynamics B. Fejer
24. Response of ionospheric electric fields at mid‐low latitudes during sudden commencements N. Takahashi et al.
25. Simulation of Dawn‐To‐Dusk Electric Field in the Jovian Inner Magnetosphere via Region 2‐Like Field‐Aligned Current Y. Nakamura et al.
26. Signatures for magnetospheric substorms in the geomagnetic field of dayside equatorial region: Origin of the ionospheric component J. Sastri et al.
27. Geomagnetic sudden commencement at the dawn-time dip equator D. Han & Q. Li
28. Transmission of the electric fields to the low latitude ionosphere in the magnetosphere-ionosphere current circuit T. Kikuchi & K. Hashimoto
29. Formation of Electron Zebra Stripes Observed on 8 September 2017 M. Pandya et al.
30. Longitudinal structure of Pc3 pulsations on the ground near the magnetic equator Y. Tanaka et al.
31. Anomalous occurrence features of the preliminary impulse of geomagnetic sudden commencement in the South Atlantic Anomaly region A. Shinbori et al.
32. Shrinking equatorial plasma bubbles V. Narayanan et al.
33. Application of a global magnetospheric‐ionospheric current model for dayside and terminator Pi2 pulsations S. Imajo et al.
34. Penetration of the electric fields of the geomagnetic sudden commencement over the globe as observed with the HF Doppler sounders and magnetometers T. Kikuchi et al.
35. Counter equatorial electrojet and overshielding after substorm onset: Global MHD simulation study Y. Ebihara et al.
36. Penetration electric fields at the nightside dip equator associated with the main impulse of the storm sudden commencement of 8 July 1991 J. Sastri
37. Estimation of Ionosphere Electron Density Structure Related to the Solar Terminator A. Andreyev et al.
38. Equatorial Ionospheric Electric Fields During the November 2004 Magnetic Storm B. Fejer et al.
39. Penetration of magnetospheric electric fields to the equator during a geomagnetic storm T. Kikuchi et al.
40. Geomagnetic field H, Z, and electromagnetic induction features of coronal mass ejections in association with geomagnetic storm at African longitudes E. Falayi et al.
41. Seasonal and longitudinal dependence of equatorial disturbance vertical plasma drifts B. Fejer et al.
42. Deformation of Ionospheric Potential Pattern by Ionospheric Hall Polarization A. Nakamizo & A. Yoshikawa
43. A New DC Electric Field Sensor and Direct Measurements of Ionosphere Sq Electric Fields M. Tsutsui & R. Kaji
44. Sudden impulses at geosynchronous orbit and at ground U. Villante & M. Piersanti
45. Impact of disturbance electric fields in the evening on prereversal vertical drift and spread F developments in the equatorial ionosphere M. Abdu et al.
46. Three different types of electric field disturbances affecting equatorial ionosphere during a long‐duration prompt penetration event D. Chakrabarty et al.
47. Climatology of F region zonal plasma drifts over Jicamarca B. Fejer et al.
48. Opposite hemispheric asymmetries during the ionospheric storm of 29–31 August 2004 E. Astafyeva et al.
49. Where Is Region 1 Field‐Aligned Current Generated? Y. Ebihara & T. Tanaka
50. Penetration electric fields observed at middle and low latitudes during the 22 June 2015 geomagnetic storm K. Hashimoto et al.
51. Multi-process driven unusually large equatorial perturbation electric fields during the April 2023 geomagnetic storm B. Fejer et al.
52. Preliminary impulse of the geomagnetic storm sudden commencement of November 18, 1993 J. Sastri et al.
53. Magnetic storm effects at equatorial electrojet stations R. Rastogi
54. A quantitative model of the effect of global thunderstorms on the global distribution of ionospheric electrostatic potential M. Kartalev et al.