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Artykuły w czasopismach na temat „Counter electrojet”

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1

Sastry, T. S., i S. V. S. Sarma. "Equatorial Counter-Electrojet and Magnetic Pulsations." Journal of geomagnetism and geoelectricity 49, nr 10 (1997): 1247–51. http://dx.doi.org/10.5636/jgg.49.1247.

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Francisca, N. Okeke, A. Hanson Esther, C. Okoro Eucharia, B. C. Isikwue i J. Ugonabo Oby. "Formation and identification of counter electrojet (CEJ)". International Journal of Physical Sciences 8, nr 15 (23.04.2013): 604–12. http://dx.doi.org/10.5897/ijps12.700.

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Rastogi, R. G. "Meridional equatorial electrojet current in the American sector". Annales Geophysicae 17, nr 2 (28.02.1999): 220–30. http://dx.doi.org/10.1007/s00585-999-0220-4.

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Abstract. Huancayo is the only equatorial electrojet station where the daytime increase of horizontal geomagnetic field (H) is associated with a simultaneous increase of eastward geomagnetic field (Y). It is shown that during the counter electrojet period when ∆H is negative, ∆Y also becomes negative. Thus, the diurnal variation of ∆Y at equatorial latitudes is suggested to be a constituent part of the equatorial electrojet current system. Solar flares are known to increase the H field at an equatorial station during normal electrojet conditions (nej). At Huancayo, situated north of the magnetic equator, the solar flare effect, during nej, consists of positive impulses in H and Y and negative impulse in Z field. During counter electrojet periods (cej), a solar flare produces a negative impulse in H and Y and a positive impulse in Z at Huancayo. It is concluded that both the zonal and meridional components of the equatorial electrojet in American longitudes, as in Indian longitudes, flows in the same, E region of the ionosphere.Key words. Geomagnetism and paleomagnetism (dynamo theories) · Ionosphere (equatorial ionosphere; ionosphere disturbances)
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4

Rabiu, A. Babatunde, Olanike Olufunmilayo Folarin, Teiji Uozumi, Nurul Shazana Abdul Hamid i Akimasa Yoshikawa. "Longitudinal variation of equatorial electrojet and the occurrence of its counter electrojet". Annales Geophysicae 35, nr 3 (7.04.2017): 535–45. http://dx.doi.org/10.5194/angeo-35-535-2017.

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Abstract. We examined the longitudinal variability of the equatorial electrojet (EEJ) and the occurrence of its counter electrojet (CEJ) using the available records of the horizontal component H of the geomagnetic field simultaneously recorded in the year 2009 (mean annual sunspot number Rz = 3.1) along the magnetic equator in the South American, African, and Philippine sectors. Our results indicate that the EEJ undergoes variability from one longitudinal representative station to another, with the strongest EEJ of about 192.5 nT at the South American axis at Huancayo and a minimum peak of 40.7 nT at Ilorin in western Africa. Obtained longitudinal inequality in the EEJ was explicable in terms of the effects of local winds, dynamics of migratory tides, propagating diurnal tide, and meridional winds. The African stations of Ilorin and Addis Ababa registered the greatest % of CEJ occurrence. Huancayo in South America, with the strongest electrojet strength, was found to have the least occurrence of the CEJ. It is suggested that activities that support strong EEJ inhibits the occurrence of the CEJ. Percentage of occurrence of the CEJ varied with seasons across the longitudes. The order of seasonal variation of morning occurrence does not tally with the evening occurrence order at any station. A semiannual equinoctial maximum in percentage of morning occurrence of the CEJ was obtained at Huancayo and Addis Ababa. Only Addis Ababa recorded equal equinoctial maxima in percentage of evening occurrence of the CEJ. The seasonal distribution of the occurrences of the CEJ at different time regimes implies a seasonal variability of causative mechanisms responsible for the occurrence of the CEJ.
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5

Mengistu, Endalkachew, i Tsegaye Kassa. "Temporal characteristics of the Equatorial Electrojet and Counter Electrojet over Ethiopian sector". Advances in Space Research 55, nr 2 (styczeń 2015): 566–75. http://dx.doi.org/10.1016/j.asr.2014.10.031.

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6

Akiyama, T., A. Yoshikawa, A. Fujimoto i T. Uozumi. "Relationship between plasma bubble and ionospheric current, equatorial electrojet, and equatorial counter electrojet". Journal of Physics: Conference Series 1152 (styczeń 2019): 012022. http://dx.doi.org/10.1088/1742-6596/1152/1/012022.

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7

Somayajulu, V. V., K. S. Viswanathan, K. S. V. Subbarao i L. Cherian. "Distortions in the height structure of the equatorial electrojet during counter electrojet events". Journal of Atmospheric and Terrestrial Physics 56, nr 1 (styczeń 1994): 51–58. http://dx.doi.org/10.1016/0021-9169(94)90175-9.

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8

Rastogi, R. G. "Morphological aspects of a new type of counter electrojet event". Annales Geophysicae 17, nr 2 (28.02.1999): 210–19. http://dx.doi.org/10.1007/s00585-999-0210-6.

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Abstract. The study describes the time and space morphologies of a rather new type of counter electrojet event on the basis of data from the excellent chain of magnetic and ionospheric observatories along the Indo-Russian longitude sector. Abnormally large westward currents are observed during almost the whole of the daytime hours on a series of days. These events do not form any vortices in the current system and do not apparently seem to be associated with tidal effects or any solar magnetosphere events or geomagnetic disturbances. The existence of a westward electric field over the equatorial ionosphere has been confirmed by the absence of an equatorial type of sporadic E in the ionograms at Thumba precisely during the periods when ∆H at Trivandrum minus ∆H at Alibag is negative. The equatorial F region anomaly was also absent on the counter electrojet day. Such counter electrojet events during the northern winter months of low solar activity years are suggested to be the result of the modified wind system in the ionosphere associated with stratospheric warming events.Key words. Geomagnetism and paleomagnetism (time variations · diurnal to secular) · Ionosphere (electric fields and currents; equatorial ionosphere)
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9

Somayajulu, V. V., Ligi Cherian, K. Rajeev, Geetha Ramkumar i C. Raghava Reddi. "Mean winds and tidal components during counter electrojet events". Geophysical Research Letters 20, nr 14 (23.07.1993): 1443–46. http://dx.doi.org/10.1029/93gl00088.

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10

Archana, R. K., N. Phani Chandrasekhar, Kusumita Arora i Nandini Nagarajan. "Constraints on Scale Lengths of Equatorial Electrojet and Counter Electrojet Phenomena From the Indian Sector". Journal of Geophysical Research: Space Physics 123, nr 8 (sierpień 2018): 6821–35. http://dx.doi.org/10.1029/2018ja025213.

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11

Gurubaran, S. "The equatorial counter electrojet: Part of a worldwide current system?" Geophysical Research Letters 29, nr 9 (maj 2002): 51–1. http://dx.doi.org/10.1029/2001gl014519.

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12

Chen, Pei-Ren, Yi Luo i Jun Ma. "The QBO modulation of the occurrence of the counter electrojet". Geophysical Research Letters 22, nr 20 (15.10.1995): 2717–20. http://dx.doi.org/10.1029/95gl02796.

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13

Rastogi, R. G., i A. Patil. "Equatorial counter-electrojet and the F2-layer of the ionosphere". Journal of Atmospheric and Terrestrial Physics 51, nr 2 (luty 1989): 139–43. http://dx.doi.org/10.1016/0021-9169(89)90113-x.

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14

Chandrasekhar, N. Phani, R. K. Archana, Nandini Nagarajan i Kusumita Arora. "Variability of equatorial counter electrojet signatures in the Indian region". Journal of Geophysical Research: Space Physics 122, nr 2 (luty 2017): 2185–201. http://dx.doi.org/10.1002/2016ja022904.

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15

Denardini, C. M., M. A. Abdu, H. C. Aveiro, L. C. A. Resende, P. D. S. C. Almeida, Ê. P. A. Olívio, J. H. A. Sobral i C. M. Wrasse. "Counter electrojet features in the Brazilian sector: simultaneous observation by radar, digital sounder and magnetometers". Annales Geophysicae 27, nr 4 (3.04.2009): 1593–603. http://dx.doi.org/10.5194/angeo-27-1593-2009.

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Abstract. In the present work we show new results regarding equatorial counter electrojet (CEJ) events in the Brazilian sector, based on the RESCO radar, two set of fluxgate magnetometer systems and a digital sounder. RESCO radar is a 50 MHz backscatter coherent radar installed in 1998 at São Luís (SLZ, 2.33° S, 44.60° W), an equatorial site. The Digital sounder routinely monitors the electron density profile at the radar site. The magnetometer systems are fluxgate-type installed at SLZ and Eusébio (EUS, 03.89° S, 38.44° W). From the difference between the horizontal component of magnetic field at SLZ station and the same component at EUS (EEJ ground strength) several cases of westward morning electrojet and its normal inversion to the eastward equatorial electrojet (EEJ) have been observed. Also, the EEJ ground strength has shown some cases of CEJ events, which been detected with the RESCO radar too. Detection of these events were investigated with respect to their time and height of occurrence, correlation with sporadic E (Es) layers at the same time, and their spectral characteristics as well as the radar echo power intensity.
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16

Soares, Gabriel, Yosuke Yamazaki, Jürgen Matzka, Katia Pinheiro, Achim Morschhauser, Claudia Stolle i Patrick Alken. "Equatorial Counter Electrojet Longitudinal and Seasonal Variability in the American Sector". Journal of Geophysical Research: Space Physics 123, nr 11 (listopad 2018): 9906–20. http://dx.doi.org/10.1029/2018ja025968.

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17

Bolaji, Olawale, Oluwafisayo Owolabi, Elijah Falayi, Emmanuel Jimoh, Afolabi Kotoye, Olumide Odeyemi, Babatunde Rabiu i in. "Observations of equatorial ionization anomaly over Africa and Middle East during a year of deep minimum". Annales Geophysicae 35, nr 1 (20.01.2017): 123–32. http://dx.doi.org/10.5194/angeo-35-123-2017.

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Abstract. In this work, we investigated the veracity of an ion continuity equation in controlling equatorial ionization anomaly (EIA) morphology using total electron content (TEC) of 22 GPS receivers and three ground-based magnetometers (Magnetic Data Acquisition System, MAGDAS) over Africa and the Middle East (Africa–Middle East) during the quietest periods. Apart from further confirmation of the roles of equatorial electrojet (EEJ) and integrated equatorial electrojet (IEEJ) in determining hemispheric extent of EIA crest over higher latitudes, we found some additional roles played by thermospheric meridional neutral wind. Interestingly, the simultaneous observations of EIA crests in both hemispheres of Africa–Middle East showed different morphology compared to that reported over Asia. We also observed interesting latitudinal twin EIA crests domiciled at the low latitudes of the Northern Hemisphere. Our results further showed that weak EEJ strength associated with counter electrojet (CEJ) during sunrise hours could also trigger twin EIA crests over higher latitudes.
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18

SOMAYAJULU, V. V. "Behaviour of harmonic components of the geomagnetic field during counter electrojet events." Journal of geomagnetism and geoelectricity 40, nr 2 (1988): 111–30. http://dx.doi.org/10.5636/jgg.40.111.

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19

Rangarajan, G. K., i R. G. Rastogi. "Longitudinal Difference in Magnetic Field Variations Associated with Quiet Day Counter Electrojet." Journal of geomagnetism and geoelectricity 45, nr 8 (1993): 649–56. http://dx.doi.org/10.5636/jgg.45.649.

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20

Soares, Gabriel, Yosuke Yamazaki, Jürgen Matzka, Katia Pinheiro, Claudia Stolle, Patrick Alken, Akimasa Yoshikawa, Teiji Uozumi, Akiko Fujimoto i Atul Kulkarni. "Longitudinal variability of the equatorial counter electrojet during the solar cycle 24". Studia Geophysica et Geodaetica 63, nr 2 (kwiecień 2019): 304–19. http://dx.doi.org/10.1007/s11200-018-0286-0.

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21

Ebihara, Y., T. Tanaka i T. Kikuchi. "Counter equatorial electrojet and overshielding after substorm onset: Global MHD simulation study". Journal of Geophysical Research: Space Physics 119, nr 9 (wrzesień 2014): 7281–96. http://dx.doi.org/10.1002/2014ja020065.

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22

Alex, S., M. Roy i R. G. Rastogi. "The effect of counter electrojet on the plasma distribution of the topside ionosphere". Geophysical Research Letters 14, nr 7 (lipiec 1987): 693–95. http://dx.doi.org/10.1029/gl014i007p00693.

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23

Rastogi, R. G., B. M. Pathan, D. R. K. Rao, T. S. Sastry i J. H. Sastri. "Solar flare effects on the geomagnetic elements during normal and counter electrojet periods". Earth, Planets and Space 51, nr 9 (wrzesień 1999): 947–57. http://dx.doi.org/10.1186/bf03351565.

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24

Somayajulu, V. V., R. Selvamurugan, C. V. Devasia i Ligi Cherian. "VHF backscatter radar observations of type I waves during a counter electrojet event". Geophysical Research Letters 21, nr 18 (1.09.1994): 2047–50. http://dx.doi.org/10.1029/94gl01590.

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25

Vineeth, C., T. K. Pant, K. K. Kumar, Lijo Jose, S. G. Sumod i S. Alex. "Counter equatorial electrojet: Analysis of the variability in daytime mesopause temperature and winds". Journal of Atmospheric and Solar-Terrestrial Physics 75-76 (luty 2012): 115–21. http://dx.doi.org/10.1016/j.jastp.2011.07.005.

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26

Manju, G., T. K. Pant, C. V. Devasia, S. Ravindran i R. Sridharan. "Electrodynamical response of the Indian low-mid latitude ionosphere to the very large solar flare of 28 October 2003 – a case study". Annales Geophysicae 27, nr 10 (9.10.2009): 3853–60. http://dx.doi.org/10.5194/angeo-27-3853-2009.

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Abstract. The electrodynamic effects on the low-mid latitude ionospheric region have been investigated using GPS (global positioning system) data, ionosonde data and ΔH values, during the very large solar flare (X17.2/4B) of 28 October 2003. The results bring out the flare induced unusual behaviour of the equatorial ionosphere on this day just prior to sunset. The important observations are i) Large and prolonged Ne enhancements observed from ionosonde data just after the flare-related peak enhancement in EUV flux. The observed enhancement in Ne is due to the increase in ionization production due to the enhanced EUV flux and the persistence of the enhancement is probably due to the prompt penetration related upliftment of the F layer (just prior to the flare peak phase) to higher altitudes, where recombination rates are lower. ii) A significant enhancement in total electron content (TEC) (~10 TEC units) at regions around the Equatorial Ionization Anomaly (EIA) crest region (Ahmedabad) during the flare in association with the flare related EUV flux enhancement. iii) Similar enhancements seen at stations of Jodhpur and Delhi in the mid latitude sector. iv)The flare related flux enhancements in different longitude sectors in the equatorial electrojet region have been shown to produce positive and negative variations in electrojet strength indicating the presence of current systems having positive and negative polarities in different longitude sectors. Thus the flare effect reveals the longitudinal variation of the counter electrojet events in the Equatorial Electrojet (EEJ) region.
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27

Olatunbosun, LG, A. O. Olabode i EA Ariyibi. "Variability of Equatorial Electrojet (EEJ) at EIA regions". Physics & Astronomy International Journal 6, nr 1 (25.01.2022): 1–4. http://dx.doi.org/10.15406/paij.2022.06.00241.

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The EEJ is a worldwide solar-driven wind that results in the solar quiet (Sq) current system in the E region of the earth’s ionosphere. The variability of some features such as EEJ, are very important in understanding the complex nature of the ionosphere, especially the low-latitude ionosphere. The magnetometer data from stations located near the equator and outside the edge of the electrojet strip for Africa and India stations were used to estimate and investigate the variability of EEJ in African and Indian Low-Latitudes. The stations are Addis Ababa, Ethiopia (geographic lat/long: 9.03oN/38.76oE) and at Mbour, Senegal for African region (geographic lat/long 14.392oN/343.042oE) and Hyderabad, India (geographic lat/long: 17.413oN/78.555oE) and Beijing Ming Tombs, China for Indian region (geographic lat/long: 40.3oN/116.2oE). The data in XYZ orientation was used to estimate the EEJ strength. The result shows that EEJ exhibits diurnal and seasonal variations and that its variability is stronger in African station than in Indian station, so also is the occurrence of counter electrojet (CEJ).
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28

Talari, Prashanthi, i Sampad Kumar Panda. "Occurrences of counter electrojets and possible ionospheric TEC variations round new Moon and full Moon days across the low latitude Indian region". Journal of Applied Geodesy 13, nr 3 (26.07.2019): 245–55. http://dx.doi.org/10.1515/jag-2019-0014.

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Abstract The present paper investigates the alterations in ionospheric Total Electron Content (TEC) over a low latitude location Bangalore (Geographic latitude {12.9^{\circ }}\hspace{2.38387pt}\text{N} and longitude {77.6^{\circ }}\hspace{2.38387pt}\text{E}; Geomagnetic latitude 4.{5^{\circ }}\hspace{2.38387pt}\text{N}) in India, corresponding to the new Moon and full Moon days which are associated with abnormality in the eastward Equatorial Electrojet (EEJ) currents. It has been well established that even during certain geomagnetic quiet days, the EEJ current direction is reversed, resulting in a westward electrojet current called Counter Electrojet (CEJ) which is more prominent around the new Moon and full Moon days, favored by Sun–Moon–Earth alignments and lunar orbital characteristics. The Global Positioning System (GPS) derived TEC at Bangalore is investigated for full Moon and new Moon and their adjacent days during the period 2008–2015. The presence of CEJ during these days suggests the foremost role of driving EEJ current over the equator in the alterations of spatiotemporal distributions of TEC over the low latitude region. The deviations in quiet time TEC during new Moon and full Moon days are quantified in this study that may give a thrust towards modeling of lunar tidal effects in the flipped ionospheric parameter over the Indian region. The study would also support analysis of future solar eclipse effects on ionosphere those involve additional photoionization production/recombination processes corresponding to the passage of lunar shadow and cooling effects. Moreover, the results underpin modeling and mitigation of ionospheric error in the satellite-based positioning, navigation, and communication applications.
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29

Kelley, M. C., R. R. Ilma i G. Crowley. "On the origin of pre-reversal enhancement of the zonal equatorial electric field". Annales Geophysicae 27, nr 5 (5.05.2009): 2053–56. http://dx.doi.org/10.5194/angeo-27-2053-2009.

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Abstract. In November 2004, a large and variable interplanetary electric field (IEF) was felt in the reference frame of the Earth. This electric field penetrated to the magnetic equator and, when the Jicamarca Radio Observatory (JRO) was in the dusk sector, resulted in a reversal of the normal zonal component of the field. In turn, this caused a counter-electrojet (CEJ), a westward current rather than the usual eastward current. At the time of the normal pre-reversal enhancement (PRE) of the eastward field, the Jicamarca incoherent scatter radar (ISR) observed that the westward component became even more westward. Two of the three current explanations for the PRE depend on the neutral wind patterns. However, this unique event was such that the neutral wind-driven dynamos could not have changed. The implication is that the Haerendel-Eccles mechanism, which involves partial closure of the equatorial electrojet (EEJ) after sunset, must be the dominant mechanism for the PRE.
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Sridharan, S., S. Sathishkumar i S. Gurubaran. "Variabilities of mesospheric tides and equatorial electrojet strength during major stratospheric warming events". Annales Geophysicae 27, nr 11 (4.11.2009): 4125–30. http://dx.doi.org/10.5194/angeo-27-4125-2009.

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Abstract. The present study demonstrates the relationship between the high latitude northern hemispheric major sudden stratospheric warming (SSW) events and the reversal in the afternoon equatorial electrojet (EEJ), often called the counter-electrojet (CEJ), during the winter months of 1998–1999, 2001–2002, 2003–2004 and 2005–2006. As the EEJ current system is driven by tidal winds, an investigation of tidal variabilities in the MF radar observed zonal winds during the winters of 1998–1999 and 2005–2006 at 88 km over Tirunelveli, a site close to the magnetic equator, shows that there is an enhancement of semi-diurnal tidal amplitude during the days of a major SSW event and a suppression of the same immediately after the event. The significance of the present results lies in demonstrating the latitudinal coupling between the high latitude SSW phenomenon and the equatorial ionospheric current system with clear evidence for major SSW events influencing the day-to-day variability of the CEJ.
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31

Sandwidi, Sibri Alphonse, Christian Zoundi, Doua Allain Gnabahou i Frederic Ouattara. "foF2 Seasonal Prediction With IRI-2016 Over Quiet Activity at Dakar Station". Applied Physics Research 13, nr 3 (11.11.2021): 1. http://dx.doi.org/10.5539/apr.v13n3p1.

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This study deals with comparison between Dakar station ionospheric F2 layer critical frequency (foF2) data and both subroutines (CCIR and URSI) of IRI-2016 model predictions. Dakar station is located near the crest of the African Equatorial Ionization Anomaly (EIA) region. Comparisons are made for very quiet activity during the four seasons (spring, summer, autumn and winter) over both solar cycles 21 and 22. The quietest days per season are determined by taking the five days with the lowest aa. The relative standard deviation of modeled foF2 values is used to assess the quality of IRI model prediction. Model predictions are suitable with observed data by day than by night. The accuracy is better during spring season and poor during winter season. During all seasons, both model subroutines don’t express the signature of the observed vertical drift E×B. But they express an intense counter electrojet at the place of mean intensity or high electrojet.
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32

Chakrabarty, D., R. Sekar, H. Chandra, R. Narayanan, B. M. Pathan i K. S. V. Subbarao. "Characterizations of the diurnal shapes of OI 630.0 nm dayglow intensity variations: inferences". Annales Geophysicae 20, nr 11 (30.11.2002): 1851–55. http://dx.doi.org/10.5194/angeo-20-1851-2002.

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Abstract. Measurements of OI 630.0 nm thermospheric dayglow emission by means of the Dayglow Photometer (DGP) at Mt. Abu (24.6° N, 73.7° E, dip lat 19.09° N), a station under the crest of Equatorial Ionization Anomaly (EIA), reveal day-to-day changes in the shapes of the diurnal profiles of dayglow intensity variations. These shapes have been characterized using the magnetometer data from equatorial and low-latitude stations. Substantial changes have been noticed in the shapes of the dayglow intensity variations between 10:00–15:00 IST (Indian Standard Time) during the days when normal and counter electrojet events are present over the equator. It is found that the width (the time span corresponding to 0.8 times the maximum dayglow intensity) of the diurnal profile has a linear relationship with the integrated electrojet strength. Occasional deviation from this linear relationship is attributed to the presence of substantial mean meridional wind.Key words. Ionosphere (equatorial ionosphere; ionosphere – atmosphere interactions; ionospheric disturbances)
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33

Zhou, Yun-Liang, Hermann Lühr, Hong-wen Xu i Patrick Alken. "Comprehensive Analysis of the Counter Equatorial Electrojet: Average Properties as Deduced From CHAMP Observations". Journal of Geophysical Research: Space Physics 123, nr 6 (czerwiec 2018): 5159–81. http://dx.doi.org/10.1029/2018ja025526.

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Alex, S., i S. Mukherjee. "Local time dependence of the equatorial counter electrojet effect in a narrow longitudinal belt". Earth, Planets and Space 53, nr 12 (grudzień 2001): 1151–61. http://dx.doi.org/10.1186/bf03352410.

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35

Woodman, Ronald F., i Jorge L. Chau. "First Jicamarca radar observations of two-streamEregion irregularities under daytime counter equatorial electrojet conditions". Journal of Geophysical Research: Space Physics 107, A12 (grudzień 2002): SIA 18–1—SIA 18–8. http://dx.doi.org/10.1029/2002ja009362.

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36

Ezema, P. O., C. A. Onwumechili i S. O. Oko. "Geomagnetically quiet day ionospheric currents over the Indian sector—III. Counter equatorial electrojet currents". Journal of Atmospheric and Terrestrial Physics 58, nr 5 (kwiecień 1996): 565–77. http://dx.doi.org/10.1016/0021-9169(95)00057-7.

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Doumouya, V., J. Vassal, Y. Cohen, O. Fambitakoye i M. Menvielle. "Equatorial electrojet at African longitudes: first results from magnetic measurements". Annales Geophysicae 16, nr 6 (30.06.1998): 658–66. http://dx.doi.org/10.1007/s00585-998-0658-9.

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Abstract. In the framework of the French participation in the International Equatorial Electrojet Year (IEEY), ten magnetotelluric stations were installed between November 1992 and November 1994 along a 1200-km-long meridian profile, between Lamto (latitude 6.2°N, Côte d'Ivoire) to the south and Tombouctou (latitude 16.7°N, Mali) to the north. These stations measured digitally the three components of the magnetic field and the two components of the telluric electric field, and operated over a period of 20 months. The magnetic data is used to study the features of the equatorial electrojet (EEJ) in West African longitude. The measurement of the telluric electric field variations will be presented elsewhere. Hourly mean values are used to study the morphological structure of the regular diurnal variation SR of the three components (H, D, and Z) of the earth magnetic field and to characterize the EEJ during magnetically quiet days. The occurrences of the counter-electrojet (CEJ) are set forth, emphasizing its seasonal variability. Assumed to be a current ribbon, the EEJ main parameters (the position of its center, its width, and the amplitude of its current density at the center) are determined. A preliminary analysis of the time variations of these parameters is presented over period of 20 months (from January 1993 to August 1994). Results are compared with those obtained during previous experiments of the same kind.
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Manju, G., i K. S. Viswanathan. "VHF radar studies of counter electrojet events during the northern winter solstice period of 1992". Earth, Planets and Space 59, nr 4 (kwiecień 2007): 259–65. http://dx.doi.org/10.1186/bf03353103.

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Stening, R. J. "The enigma of the counter equatorial electrojet and lunar tidal influences in the equatorial region". Advances in Space Research 12, nr 6 (1992): 23–32. http://dx.doi.org/10.1016/0273-1177(92)90036-w.

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Pandey, R., S. Prakash i H. S. S. Sinha. "Formation of ionisation layers responsible for blanketing Es during daytime counter-electrojet over magnetic equator". Journal of Atmospheric and Terrestrial Physics 54, nr 1 (styczeń 1992): 63–74. http://dx.doi.org/10.1016/0021-9169(92)90085-y.

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Mohd Rosli, Nur Izzati, Nurul Shazana Abdul Hamid, Mardina Abdullah, Khairul Adib Yusof, Akimasa Yoshikawa, Teiji Uozumi i Babatunde Rabiu. "The Variation of Counter-Electrojet Current at the Southeast Asian Sector during Different Solar Activity Levels". Applied Sciences 12, nr 14 (15.07.2022): 7138. http://dx.doi.org/10.3390/app12147138.

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Studies on counter-electrojet currents (CEJ) using ground data revealed that this current could occur simultaneously among locations that are less than 30° longitude apart. In our work, the symmetricity of CEJ variation between the west and east of Southeast Asia, separated by ~25°, was preliminarily examined according to its types: morning (MCEJ) and afternoon (ACEJ). Since most of the past studies had overlooked the occurrence after dusk, the monitoring period was also extended from 18:00 to 21:00 LT, namely, the post-sunset depletion (PSD). The magnetometer station in Davao, Philippines (DAV) and Langkawi, Malaysia (LKW) were chosen to represent the east and west parts. The EEJ index (i.e., EUEL) over the periods of the solar cycle 24 (2008–2018) was utilized specifically during magnetically quiet days (Kp < 3). As the result, both parts symmetrically showed that MCEJ and ACEJ were positively and negatively correlated with the F10.7 index. Contrarily, MCEJ and ACEJ were asymmetrically prominent in the east and west. CEJ types also varied symmetrically with the season, especially for MCEJ and ACEJ (at high level), prominent during Equinox and J-solstice. Post-sunset depletion (PSD) in both parts was symmetrically solar activity independent, as no correlation with the F10.7 index was observed in the extended observation. PSD that varied symmetrically with season was also solar activity independent, except in the east during Equinox, where it was negatively correlated with the F10.7 index. Our finding also revealed that PSD was prominent during Equinox, except for the high level in the west part.
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Tsunoda, Roland T., i Warner L. Ecklund. "On the nature of radar echoes below 95 km during counter streaming in the equatorial electrojet". Geophysical Research Letters 26, nr 17 (1.09.1999): 2717–20. http://dx.doi.org/10.1029/1999gl900563.

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Vineeth, C., N. Mridula, P. Muralikrishna, K. K. Kumar i T. K. Pant. "First observational evidence for the connection between the meteoric activity and occurrence of equatorial counter electrojet". Journal of Atmospheric and Solar-Terrestrial Physics 147 (wrzesień 2016): 71–75. http://dx.doi.org/10.1016/j.jastp.2016.07.007.

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Cherkos, Alemayehu Mengesha. "Solar Flux Effects on the Variations of Equatorial Electrojet (EEJ) and Counter-Electrojet (CEJ) Current across the Different Longitudinal Sectors during Low and High Solar Activity". Journal of Astronomy and Space Sciences 40, nr 2 (czerwiec 2023): 45–57. http://dx.doi.org/10.5140/jass.2023.40.2.45.

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This study examined the effect of solar flux (F10.7) and sunspots number (R) on the daily variation of equatorial electrojet (EEJ) and morning/afternoon counter electrojet (MCEJ/ACEJ) in the ionospheric E region across the eight longitudinal sectors during quiet days from January 2008 to December 2013. In particular, we focus on both minimum and maximum solar cycle of 24. For this purpose, we have collected a 6-year ground-based magnetic data from multiple stations to investigate EEJ/CEJ climatology in the Peruvian, Brazilian, West & East African, Indian, Southeast Asian, Philippine, and Pacific sectors with the corresponding F10.7 and R data from satellites simultaneously. Our results reveal that the variations of monthly mean EEJ intensities were consistent with the variations of solar flux and sunspot number patterns of a cycle, further indicating that there is a significant seasonal and longitudinal dependence. During the high solar cycle period, F10.7 and R have shown a strong peak around equinoctial months, consequently, the strong daytime EEJs occurred in the Peruvian and Southeast Asian sectors followed by the Philippine regions throughout the years investigated. In those sectors, the correlation between the day Maxima EEJ and F10.7 strengths have a positive value during periods of high solar activity, and they have relatively higher values than the other sectors. A predominance of MCEJ occurrences is observed in the Brazilian (TTB), East African (AAE), and Peruvian (HUA) sectors. We have also observed the CEJ dependence on solar flux with an anti-correlation between ACEJ events and F10.7 are observed especially during a high solar cycle period.
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Rastogi, R. G., H. Chandra i K. Yumoto. "Unique examples of solar flare effects in geomagnetic H field during partial counter electrojet along CPMN longitude sector". Earth, Planets and Space 65, nr 9 (wrzesień 2013): 1027–40. http://dx.doi.org/10.5047/eps.2013.04.004.

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Ajesh, A., T. K. Pant, C. Vineeth, N. Mridula i K. K. Kumar. "Vertical coupling between the mesopause region and sporadic-E layer during equatorial counter electrojet events – A case study". Advances in Space Research 62, nr 7 (październik 2018): 1787–99. http://dx.doi.org/10.1016/j.asr.2018.07.001.

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Hajra, R., S. K. Chakraborty i A. Paul. "Electrodynamical control of the ambient ionization near the equatorial anomaly crest in the Indian zone during counter electrojet days". Radio Science 44, nr 3 (czerwiec 2009): n/a. http://dx.doi.org/10.1029/2008rs003904.

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Simi, K. G., C. Vineeth i T. K. Pant. "Analysis of post-sunset F-region vertical plasma drifts during Counter Electrojet days using multi frequency HF Doppler Radar". Advances in Space Research 54, nr 3 (sierpień 2014): 456–62. http://dx.doi.org/10.1016/j.asr.2014.04.002.

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Sridharan, S., S. Gurubaran i R. Rajaram. "Structural changes in the tidal components in mesospheric winds as observed by the MF radar during afternoon counter electrojet events". Journal of Atmospheric and Solar-Terrestrial Physics 64, nr 12-14 (sierpień 2002): 1455–63. http://dx.doi.org/10.1016/s1364-6826(02)00109-8.

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Nayak, C. K., D. Tiwari, K. Emperumal i A. Bhattacharyya. "The equatorial ionospheric response over Tirunelveli to the 15 January 2010 annular solar eclipse: observations". Annales Geophysicae 30, nr 9 (25.09.2012): 1371–77. http://dx.doi.org/10.5194/angeo-30-1371-2012.

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Abstract. In this paper we present a case study of the annular solar eclipse effects on the ionization of E and F regions of equatorial ionosphere over Tirunelveli [77.8° E, 8.7° N, dip 0.4° N] by means of digital ionosonde on 15 January 2010. The maximum obscuration of the eclipse at this station was 84% and it occurred in the afternoon. The E and F1 layers of the ionosphere showed very clear decrease in their electron concentrations, whereas the F2 layer did not show appreciable changes. A reduction of 30% was observed in the foF1 during the maximum phase of the eclipse. During the beginning phase of the eclipse, an enhancement of 0.97 MHz was observed in the foF2 as compared to that of the control days. But the foF2 decreased gradually as the eclipse progressed and a decrease of 0.59 MHz was observed towards the end phase of the eclipse. Observed variations in the h'F2 and hmF2 showed lower values than the control days, although hmF2 was found to increase a bit during the eclipse. Observed variability in the E, F1 and F2 layer ionospheric parameters on the eclipse day and their departure from the control days are discussed as the combined effect of annular eclipse and presence of counter equatorial electrojet (CEEJ).
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