29 citations as recorded by crossref.

1. Physics of meteor generated shock waves in the Earth’s atmosphere – A review E. Silber et al.
2. On the variability of the terdiurnal tide over a Brazilian equatorial station using meteor radar observations A. Guharay et al.
3. Short-term variability and summer-2009 averages of the mean wind and tides in the mesosphere and lower thermosphere over Langfang, China (39.4°N, 116.7°E) C. Xiao et al.
4. Diurnal variation in gravity wave activity at low and middle latitudes V. Andrioli et al.
5. Simulations of blanketing sporadic E-layer over the Brazilian sector driven by tidal winds L. Araujo Resende et al.
6. Effects of planetary wave oscillation on E-sporadic (Es) layers during the rare Antarctic sudden stratospheric warming of 2019 P. Fontes et al.
7. On the variability of the seasonal scale oscillations over Cachoeira Paulista (22.7°S, 45°W), Brazil A. Guharay et al.
8. Short‐Term and Interannual Variations of Migrating Diurnal and Semidiurnal Tides in the Mesosphere and Lower Thermosphere M. Dhadly et al.
9. Comparison of meteor radar and satellite winds in the Brazilian equatorial region A. Paulino et al.
10. The diurnal and semidiurnal tides over Ascension Island (° S, 14° W) and their interaction with the stratospheric quasi-biennial oscillation: studies with meteor radar, eCMAM and WACCM R. Davis et al.
11. The influence of tidal winds in the formation of blanketing sporadic e-layer over equatorial Brazilian region L. Resende et al.
12. Improved analysis of all-sky meteor radar measurements of gravity wave variances and momentum fluxes V. Andrioli et al.
13. Seasonal variability of atmospheric tides in the mesosphere and lower thermosphere: meteor radar data and simulations D. Pokhotelov et al.
14. On the variability of the quarter-diurnal tide in the MLT over Brazilian low-latitude stations A. Guharay et al.
15. A review of Mesosphere–Stratosphere–Troposphere (MST) radar developments and studies, circa 1997–2008 W. Hocking
16. Diurnal mesospheric tidal winds observed simultaneously by meteor radars in Costa Rica (10° N, 86° W) and Brazil (7° S, 37° W) R. Buriti et al.
17. Climatology of intermediate descending layers (or 150 km echoes) over the equatorial and low-latitude regions of Brazil during the deep solar minimum of 2009 Â. dos Santos et al.
18. Winds and tides in the mid-latitude Southern Hemisphere upper mesosphere recorded with the Falkland Islands SuperDARN radar R. Hibbins et al.
19. Equatorial E Region Electric Fields and Sporadic E Layer Responses to the Recovery Phase of the November 2004 Geomagnetic Storm J. Moro et al.
20. Signature of a 120-day oscillation in the MLT winds and tides over São João do Cariri (7.4oS, 36.5oW) A. Guharay et al.
21. New Findings of the Sporadic E (Es) Layer Development Around the Magnetic Equator During a High‐Speed Solar (HSS) Wind Stream Event L. Resende et al.
22. Determination of gravity wave parameters in the airglow combining photometer and imager data P. Nyassor et al.
23. Vertical winds and momentum fluxes due to equatorial planetary scale waves using all-sky meteor radar over Brazilian region F. Egito et al.
24. Climatology of the main (24-h and 12-h) tides observed by meteor radars at Svalbard and Tromsø: Comparison with the models CMAM-DAS and WACCM-X D. Pancheva et al.
25. Complex Plane Specular Meteor Radar Interferometry C. Vaudrin et al.
26. Effects of the terdiurnal tide on the sporadic E (Es) layer development at low latitudes over the Brazilian sector P. Fontes et al.
27. The Influence of Disturbance Dynamo Electric Field in the Formation of Strong Sporadic E Layers Over Boa Vista, a Low‐Latitude Station in the American Sector L. Resende et al.
28. Competition between winds and electric fields in the formation of blanketing sporadic E layers at equatorial regions L. Resende et al.
29. Comparative study of MLT mean winds using MF radars located at 16.8°N and 8.7°N A. Sharma et al.