86 citations as recorded by crossref.

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4. Diurnal, seasonal, annual, and semi-annual variations of ionospheric parameters at different latitudes in East Asian sector during ascending phase of solar activity Ч. Ван et al. 10.12737/22594
5. Modeling and analysis of GPS-TEC low latitude climatology during the 24th solar cycle using empirical orthogonal functions J. Dabbakuti & D. Venkata Ratnam 10.1016/j.asr.2017.06.048
6. Dependence of annual asymmetry in <i>NmF2</i> on local time V. Shubin et al. 10.31857/S0016794024010091
7. Echo of ring current storms in the ionosphere T. Gulyaeva & A. Mannucci 10.1016/j.jastp.2020.105300
8. The Variation Characteristics and Prediction Performance of TEC in the Geomagnetic Latitude and Local Time Coordinate S. Zhang et al. 10.1029/2022RS007544
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14. Impact of September 2019 Antarctic Sudden Stratospheric Warming on Mid‐Latitude Ionosphere and Thermosphere Over North America and Europe L. Goncharenko et al. 10.1029/2021GL094517
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18. Daytime Ionospheric TEC Weather Study Over Latin America E. Romero‐Hernandez et al. 10.1029/2018JA025943
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24. Seasonal and solar activity dependence of TEC over Bharati station, Antarctica G. Seemala et al. 10.1016/j.polar.2023.101001
25. Comparison of GPS-TEC observations over Addis Ababa with IRI-2012 model predictions during 2010–2013 A. Akala et al. 10.1016/j.asr.2015.07.017
26. Regional TEC model under quiet geomagnetic conditions and low-to-moderate solar activity based on CODE GIMs J. Feng et al. 10.1016/j.jastp.2017.05.013
27. Morphological study on the ionospheric variability at Bharati, a polar cusp station in the southern hemisphere P. Shreedevi et al. 10.1016/j.jastp.2019.105058
28. Dependence of the Local Index of Annual Asymmetry for NmF2 on Solar Activity M. Deminov & G. Deminova 10.1134/S0016793221020055
29. East‐west differences inF‐region electron density at midlatitude: Evidence from the Far East region B. Zhao et al. 10.1029/2012JA018235
30. A New Model of Solar Illumination of Earth’s Atmosphere during Night-Time R. Colonna & V. Tramutoli 10.3390/earth2020012
31. Demarcation of solar cycle 24 and characterization of ionospheric GPS-TEC towards the western part of India R. Dumka et al. 10.1016/j.quaint.2020.04.051
32. Characteristics of low‐latitude TEC during solar cycles 23 and 24 using global ionospheric maps (GIMs) over Indian sector N. Dashora & S. Suresh 10.1002/2014JA020559
33. Seasonal and Interhemispheric Effects on the Diurnal Evolution of EIA: Assessed by IGS TEC and IRI-2016 over Peruvian and Indian Sectors X. Wan et al. 10.3390/rs14010107
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38. Network Theory to Reveal Ionospheric Anomalies over North America and Australia I. Zhivetiev & Y. Yasyukevich 10.3390/atmos13081333
39. On the mechanism of seasonal and solar cycleNmF2variations: A quantitative estimate of the main parameters contribution using incoherent scatter radar observations A. Mikhailov & L. Perrone 10.1029/2010JA016122
40. TEC variability near northern EIA crest and comparison with IRI model M. Aggarwal 10.1016/j.asr.2011.05.037
41. Variability of Ionospheric Total Electron Content Over Morocco During the Godzilla Sand and Dust Storm of June 2020 U. Edward et al. 10.11648/j.ijass.20241201.11
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43. Winter anomaly of the E-layer critical frequency in the nighttime auroral zone M. Deminov & G. Deminova 10.1134/S0016793217050061
44. An Empirical Orthogonal Function Study of the Ionospheric TEC Predicted Using the TIEGCM Model over the South Atlantic Anomaly in 2002 and 2008 J. Yu et al. 10.3390/universe9020102
45. Comparison of ionospheric anomalies over African equatorial/low-latitude region with IRI-2016 model predictions during the maximum phase of solar cycle 24 P. Amaechi et al. 10.1016/j.asr.2021.03.040
46. A novel empirical global total electron content model utilizing spatiotemporal combinations to address ionospheric anomalies Z. Zhao et al. 10.1016/j.asr.2025.01.036
47. Studying the ionospheric responses induced by a geomagnetic storm in September 2017 with multiple observations in America Y. Liu et al. 10.1007/s10291-019-0916-1
48. Arctic–Antarctic asymmetry of the ionospheric weather T. Gulyaeva et al. 10.1016/j.asr.2022.05.008
49. Analysis of the north–south asymmetry of the equatorial ionization anomaly around 110°E longitude L. Huang et al. 10.1016/j.jastp.2013.06.010
50. The cooperative IGS RT-GIMs: a reliable estimation of the global ionospheric electron content distribution in real time Q. Liu et al. 10.5194/essd-13-4567-2021
51. Comparison of equatorial GPS-TEC observations over an African station and an American station during the minimum and ascending phases of solar cycle 24 A. Akala et al. 10.5194/angeo-31-2085-2013
52. A new regional total electron content empirical model in northeast China J. Feng et al. 10.1016/j.asr.2016.06.001
53. An evaluation of the IRI-Plas-TEC for winter anomaly along the mid-latitude sector based on GIM-TEC and foF2 values G. Gordiyenko et al. 10.1016/j.asr.2019.04.014
54. Correlation between Ionospheric TEC and the DCB Stability of GNSS Receivers from 2014 to 2016 B. Choi et al. 10.3390/rs11222657
55. Solar Hysteresis Pattern and Spectral Components in TEC Time Series (GPS and TIE‐GCM) of the Quadrilaterally Coupled Geomagnetic Conjugate Low‐Latitude Stations S. Rao et al. 10.1029/2023JA031428
56. Solar cycle variation of the electron density in the topside ionosphere at local nighttime observed by DEMETER during 2006–2008 X. Zhang et al. 10.1002/2013JA019463
57. The winter anomaly in the middle-latitudeFregion during the solar minimum period observed by the Constellation Observing System for Meteorology, Ionosphere, and Climate W. Lee et al. 10.1029/2010JA015815
58. Electric field penetration into Earth’s ionosphere: a brief review for 2000–2013 Y. Wei et al. 10.1007/s11434-015-0749-4
59. First results from ITU-Dynasonde, Istanbul, Turkey on the ionospheric characteristics A. Moral et al. 10.1016/j.asr.2020.08.034
60. Analysis of local ionospheric variability based on SVD and MDS at low-latitude GNSS stations J. Dabbakuti et al. 10.1186/s40623-016-0478-1
61. Ionospheric TEC disturbances over China during the strong geomagnetic storm in September 2017 D. Wen & D. Mei 10.1016/j.asr.2020.03.002
62. Study of solar flux dependency of the winter anomaly in GPS TEC S. Rao et al. 10.1007/s10291-018-0795-x
63. The effect of solar and geomagnetic parameters on total electron content over Ankara, Turkey R. Atıcı et al. 10.1016/j.asr.2019.07.018
64. Nighttime Ionospheric TEC Study Over Latin America During Moderate and High Solar Activity E. Romero‐Hernandez et al. 10.1029/2020JA028210
65. Low-latitude ionospheric response from GPS, IRI and TIE-GCM TEC to Solar Cycle 24 S. Rao et al. 10.1007/s10509-019-3701-2
66. Modeling Chinese ionospheric layer parameters based on EOF analysis Y. Yu et al. 10.1002/2014SW001159
67. Seasonal and diurnal variations of PolarDARN F region echo occurrence in the polar cap and their causes M. Ghezelbash et al. 10.1002/2014JA020726
68. The solar wind-magnetosphere coupling and daytime disturbance electric fields in equatorial ionosphere during consecutive recurrent geomagnetic storms T. Yeeram 10.1016/j.jastp.2019.03.004
69. Review of Environmental Monitoring by Means of Radio Waves in the Polar Regions: From Atmosphere to Geospace L. Alfonsi et al. 10.1007/s10712-022-09734-z
70. Longitudinal features of day- and night-time ionospheric annual variations during the solar cycles 23 and 24 W. Younas et al. 10.1016/j.asr.2024.01.033
71. Variation of the TEC at a dip equatorial station, Trivandrum and a mid latitude station, Hanle during the descending phase of the solar cycle 24 (2014–2016) P. Shreedevi et al. 10.1016/j.jastp.2018.09.010
72. Storm time response of GPS-derived total electron content (TEC) during low solar active period at Indian low latitude station Varanasi S. Kumar & A. Singh 10.1007/s10509-010-0459-y
73. Latitudinal variation of ionospheric TEC at Northern Hemispheric region M. Parwani et al. 10.2205/2018ES000644
74. foF2 variability at a southern low-latitude station and the performance of IRI-2016 model during ascending phase of solar cycle-24 S. Rao et al. 10.1016/j.asr.2019.08.014
75. Variations of electron density and temperature in ionosphere based on the DEMETER ISL data Y. He et al. 10.1007/s11589-010-0732-8
76. Winter anomaly in NmF2 and TEC: when and where it can occur Y. Yasyukevich et al. 10.1051/swsc/2018036
77. Equinoctial asymmetry of ionospheric vertical plasma drifts and its effect onF-region plasma density Z. Ren et al. 10.1029/2010JA016081
78. Spatial and temporal analysis of the total electron content over China during 2011–2014 J. Zheng et al. 10.1016/j.asr.2016.03.037
79. Climatology of ionosphere over Nepal based on GPS total electron content data from 2008 to 2018 D. Pandit et al. 10.5194/angeo-39-743-2021
80. Statistical study of the time delay of ionospheric TEC storms to geomagnetic storms in Taoyuan, Taiwan Y. Zhang et al. 10.1016/j.asr.2019.09.017
81. Day-to-day variability of equatorial anomaly in GPS-TEC during low solar activity period M. Aggarwal et al. 10.1016/j.asr.2012.03.005
82. Variability of ionospheric TEC during solar and geomagnetic minima (2008 and 2009): external high speed stream drivers O. Verkhoglyadova et al. 10.5194/angeo-31-263-2013
83. Seasonal variations of the ionospheric electron densities retrieved from Constellation Observing System for Meteorology, Ionosphere, and Climate mission radio occultation measurements L. Liu et al. 10.1029/2008JA013819
84. Altitudinal Extent of Winter Anomaly and Its Manifestation in the Total Electron Content M. Klimenko et al. 10.1134/S1990793119040080
85. Dependence of the Annual Asymmetry in NmF2 on Geomagnetic Latitude and Solar Activity M. Deminov et al. 10.1134/S0016793221030038
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