1994
DOI: 10.5636/jgg.46.373
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Quasi-Bidaily Variation of the Geomagnetic Field in the Indian Equatorial Zone.

Abstract: Quasi-bidaily Variation (BDV) in the geomagnetic field due to equatorial electrojet and planetary Sq currents is clearly detected in the Indian equatorial zone. The quasi-stationary signal is stronger in EEJ compared to SQ. Larger amplitude of the BDV in EEJ is confined only to late summer in the northern hemisphere indicative of its clear association with the planetary wave in the mesosphere below. A noticeable change in the BDV amplitude is seen following counter electrojet events. However, no concrete evide… Show more

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Cited by 7 publications
(6 citation statements)
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“…Further, in the case of ∼2‐day oscillation in EEJ strength, it is noted in the present study that often the period of oscillation (least squares method) in EEJ strength is centered near 48 h (not shown here), which is in agreement with earlier observations by Rangarajan [1994]. However, in mesospheric winds, the periodicity varies between 40 and 60 h; predominantly near 52 h in zonal winds but near 46 h in meridional winds (not shown here).…”
Section: Quasi–2‐day Oscillationsupporting
confidence: 93%
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“…Further, in the case of ∼2‐day oscillation in EEJ strength, it is noted in the present study that often the period of oscillation (least squares method) in EEJ strength is centered near 48 h (not shown here), which is in agreement with earlier observations by Rangarajan [1994]. However, in mesospheric winds, the periodicity varies between 40 and 60 h; predominantly near 52 h in zonal winds but near 46 h in meridional winds (not shown here).…”
Section: Quasi–2‐day Oscillationsupporting
confidence: 93%
“…These varied periodicities in mesospheric winds were also reported by earlier observations [ Craig and Elford , 1981; Salby , 1981c; Cevolani and Kingsley , 1992]. Rangarajan [1994] attributed the difference in periodicity of ∼2‐day oscillations between EEJ strength and mesospheric winds to the local wind effects. Since the winds associated with planetary waves at near off‐EEJ latitudes are more effective than the winds at EEJ latitudes in modulating the ionospheric currents, the winds detected over the equatorial (EEJ latitudes) regions need not always show its influence on the EEJ current system when the winds are different in these two latitude regions.…”
Section: Quasi–2‐day Oscillationsupporting
confidence: 84%
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“… Ito et al [1986] first theoretically suggested that a large‐amplitude global‐scale 2‐day wave can induce an electric current system in the ionosphere through a dynamo mechanism. Takeda and Yamada [1989], Rangarajan [1994], and Yamada [2002] detected quasi‐2‐day variability in geomagnetic field and discussed its possible relationship with the 2‐day wave in the atmosphere; however, no wind measurements supported their results. Gurubaran et al [2001a] identified the signatures of the quasi‐2‐day variability in the equatorial electrojet and showed a reasonable correlation with the 2‐day wave measured by the MF radar situated close to the geomagnetic stations.…”
Section: Introductionmentioning
confidence: 92%
“…In the Indian longitude region, Rangarajan (1994) detected quasi-bi-daily variation (BDV) in geomagnetic field due to equatorial electrojet (EEJ) and planetary solar quiet (Sq) currents. It was shown further that the quasi-stationary signal was stronger in EEJ compared to in Sq.…”
Section: Introductionmentioning
confidence: 99%