33 citations as recorded by crossref.

1. Propagation of plasma bubbles observed in Brazil from GPS and airglow data J. Haase et al.
2. First measurement of horizontal wind and temperature in the lower thermosphere (105–140 km) with a Na Lidar at Andes Lidar Observatory A. Liu et al.
3. Interferometry Observations of the Gravity Wave Effect on the Sporadic E Layer C. Seid et al.
4. Modeling of equatorial plasma bubbles triggered by non-equatorial traveling ionospheric disturbances J. Krall et al.
5. Statistical analysis and model of spread F occurrence in China T. Xu et al.
6. Measurement of the Characteristics of TIDs Using Small and Regional Networks of GPS Receivers during the Campaign of 17–30 July of 2008 C. Valladares & M. Hei
7. A Brief Review of Equatorial Plasma Bubbles A. Patil et al.
8. Data‐driven numerical simulations of equatorial spread F in the Peruvian sector: 2. Autumnal equinox D. Hysell et al.
9. Gravity wave seeding of equatorial plasma bubbles: An investigation with simultaneousFregion,Eregion, and middle atmospheric measurements A. Taori et al.
10. Overview of Nighttime Ionospheric Instabilities at Low- and Mid-Latitudes: Coupling Aspects Resulting in Structuring at the Mesoscale J. Makela & Y. Otsuka
11. Review on space weather in Latin America. 1. The beginning from space science research C. Denardini et al.
12. Application of Wuhan Ionospheric Oblique Backscattering Sounding System (WIOBSS) for the investigation of midlatitude ionospheric irregularities J. Wang et al.
13. Nighttime Ionospheric TEC Study Over Latin America During Moderate and High Solar Activity E. Romero‐Hernandez et al.
14. Continuous generation and two‐dimensional structure of equatorial plasma bubbles observed by high‐density GPS receivers in Southeast Asia S. Buhari et al.
15. Observation of TEC perturbation associated with medium‐scale traveling ionospheric disturbance and possible seeding mechanism of atmospheric gravity wave at a Brazilian sector O. Jonah et al.
16. Investigation of infrasound signatures from microbaroms using OH airglow and ground-based microbarometers T. Le Dû et al.
17. Study on the scale distribution of the field-aligned irregularities in E-region W. Gong & H. Qi
18. Forward ray-tracing for medium-scale gravity waves observed during the COPEX campaign I. Paulino et al.
19. Climatology of GW-TIDs in the magnetic equatorial upper thermosphere over India G. Manju & R. Aswathy
20. Multi-instrument investigation of troposphere-ionosphere coupling and the role of gravity waves in the formation of equatorial plasma bubble M. Sivakandan et al.
21. Rare Occurrence of Off‐Equatorial Edge Initiating and Equatorward Surging Plasma Depletions Observed in OI 630‐nm Imaging N. Parihar
22. Mesospheric gravity waves and ionospheric plasma bubbles observed during the COPEX campaign I. Paulino et al.
23. Ionospheric threat simulation for GNSS using the Spirent hardware signal simulator T. Dautermann et al.
24. Interaction of Oppositely Traveling Medium‐Scale Traveling Ionospheric Disturbances Observed in Low Latitudes During Geomagnetically Quiet Nighttime K. Wu et al.
25. On the occurrence and strength of multi-frequency multi-GNSS Ionospheric Scintillations in Indian sector during declining phase of solar cycle 24 V. Srinivasu et al.
26. Influence of the semidiurnal lunar tide in the equatorial plasma bubble zonal drifts over Brazil I. Paulino et al.
27. Interactions between MSTIDs and Ionospheric Irregularities in the Equatorial Region Observed on 13–14 May 2013 K. Wu & L. Qian
28. Simultaneous OI 630 nm imaging observations of thermospheric gravity waves and associated revival of fossil depletions around midnight near the equatorial ionization anomaly (EIA) crest N. Parihar et al.
29. Large‐scale ionospheric disturbances due to the dissipation of convectively‐generated gravity waves over Brazil H. Liu & S. Vadas
30. On the Seeding of Periodic Equatorial Plasma Bubbles by Gravity Waves Associated With Tropical Cyclone: A Case Study K. Ajith et al.
31. Quantification of Vertical and Horizontal Wavelengths Associated With Atmospheric Gravity Waves (AGWs) During Extreme Tropical Cyclones Over the Indian Subcontinent O. Patil et al.
32. Low‐latitude daytime F region irregularities observed in two geomagnetically quiet days by the Hainan coherent scatter phased array radar (HCOPAR) G. Chen et al.
33. Simulation of the seeding of equatorial spread F by circular gravity waves J. Krall et al.