41 citations as recorded by crossref.

1. Advances in Plasmaspheric Wave Research with CLUSTER and IMAGE Observations A. Masson et al.
2. Three‐dimensional test simulations of the outer radiation belt electron dynamics including electron‐chorus resonant interactions A. Varotsou et al.
3. Chorus wave-normal statistics in the Earth's radiation belts from ray tracing technique H. Breuillard et al.
4. Multispacecraft observations of chorus dispersion and source location A. Breneman et al.
5. Excitation of dayside chorus waves due to magnetic field line compression in response to interplanetary shocks C. Zhou et al.
6. Modeling the wave power distribution and characteristics of plasmaspheric hiss J. Bortnik et al.
7. The role of electrons during chorus intensification: Energy source and energy loss H. Fu et al.
8. Location and size of the global source region of whistler mode chorus M. Hayosh et al.
9. Conjugate observations on board a satellite and on the ground of a remarkable MLR‐like event F. Němec et al.
10. The Electric and Magnetic Fields Instrument Suite and Integrated Science (EMFISIS): Science, Data, and Usage Best Practices C. Kletzing et al.
11. Spatial spreading of magnetospherically reflected chorus elements in the inner magnetosphere H. Breuillard et al.
12. Geotail observation of upper band and lower band chorus elements in the outer magnetosphere S. Yagitani et al.
13. Effective length of a receiving antenna in case of quasi‐electrostatic whistler mode waves: Application to spacecraft observations of chorus emissions E. Shirokov et al.
14. Global distribution of whistler‐mode chorus waves observed on the THEMIS spacecraft W. Li et al.
15. Survey of Poynting flux of whistler mode chorus in the outer zone O. Santolík et al.
16. Resonance zones for electron interaction with plasma waves in the Earth’s dipole magnetosphere. I. Evaluation for field-aligned chorus, hiss, and electromagnetic ion cyclotron waves B. Ni & D. Summers
17. Nonlinear spatiotemporal evolution of whistler mode chorus waves in Earth's inner magnetosphere D. Summers et al.
18. Evaluation of whistler‐mode chorus intensification on the nightside during an injection event observed on the THEMIS spacecraft W. Li et al.
19. THEMIS analysis of observed equatorial electron distributions responsible for the chorus excitation W. Li et al.
20. Latest progress on interactions between VLF/ELF waves and energetic electrons in the inner magnetosphere F. Xiao et al.
21. Chorus and chorus‐like emissions seen by the ionospheric satellite DEMETER M. Parrot et al.
22. Drivers of chorus in the outer dayside magnetosphere M. Spasojevic & U. Inan
23. On the latitudinal extent of chorus emissions as observed by the Polar Plasma Wave Instrument N. Bunch et al.
24. Observation of chorus waves by the Van Allen Probes: Dependence on solar wind parameters and scale size H. Aryan et al.
25. Field-aligned chorus wave spectral power in Earth's outer radiation belt H. Breuillard et al.
26. Oblique lower band chorus waves: Time shifts between discrete elements observed by the Cluster spacecraft J. Chum et al.
27. Global Map of Chorus Wave Sizes in the Inner Magnetosphere H. Aryan et al.
28. Bounce‐averaged diffusion coefficients for field‐aligned chorus waves Y. Shprits et al.
29. Theory and simulation of the generation of whistler‐mode chorus Y. Omura et al.
30. On the origin of falling-tone chorus elements in Earth's inner magnetosphere H. Breuillard et al.
31. Timescales for radiation belt electron acceleration and loss due to resonant wave‐particle interactions: 2. Evaluation for VLF chorus, ELF hiss, and electromagnetic ion cyclotron waves D. Summers et al.
32. Longitudinal Extent of Magnetospheric ELF/VLF Waves using Multipoint PWING Ground Stations at Subauroral Latitudes Y. Takeshita et al.
33. In-flight observations of electromagnetic interferences emitted by satellite J. Cao et al.
34. The source region and its characteristic of pulsating aurora based on the Reimei observations T. Nishiyama et al.
35. Study of Spatiotemporal Development of Global Distribution of Magnetospheric ELF/VLF Waves Using Ground‐Based and Satellite Observations, and RAM‐SCB Simulations, for the March and November 2017 Storms Y. Takeshita et al.
36. The mid-high latitude whistler mode chorus waves observed around substorm onsets J. Yang et al.
37. Three‐dimensional simulations of outer radiation belt electron dynamics including cross‐diffusion terms F. Xiao et al.
38. Geomagnetic conjugate observations of plasma‐sheet electrons by the FAST and THEMIS satellites S. Lee et al.
39. Global distribution of wave amplitudes and wave normal angles of chorus waves using THEMIS wave observations W. Li et al.
40. New observations of electromagnetic harmonic ELF emissions in the ionosphere by the DEMETER satellite during large magnetic storms M. Parrot et al.
41. Excitation of Highly Oblique Lower Band and Upper Band Chorus by a Loss Cone Feature and Temperature Anisotropy Distribution Q. Zhou et al.