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During a weak geomagnetic storm (Ap = 15) on 24 December 2014, the penetration electric field perturbations over the Indian dip equatorial sector are found to be anomalous on a number of occasions during post-sunset hours. The event is anomalous as the magnitude and polarity of penetration electric fields do not obey the existing paradigm. The penetration electric field perturbations are investigated using the vertical drifts derived from the CADI (Canadian Advanced Digital Ionosonde) measurements at Tirunelveli (8.7° N, 77.7° E, dip angle: 1.7°). During this event, we observed post-sunset vertical drift of ∼42 ms−1 not only at 1810 LT but also ∼36 ms−1 at ∼2100 LT which is anomalous. Interestingly, the dawn-dusk component of interplanetary electric field (IEFy) is relatively less ( < 2 mV/m) at ∼2100 LT compared to the interval 1930-2030 LT (IEFy ∼3 mV/m). Despite that, the vertical drift observed over Tirunelveli is very close to zero or nominally upward during 1930-2030 LT. In addition, the downward drift just after 2130 LT on this night is found to be exceptionally large ( ∼-60 ms−1). By combining vertical total electron content over the Indian sector with the OI 630.0 nm airglow intensity from Mt. Abu, chain of magnetometer and Los Alamos National Laboratory (LANL) geosynchronous satellite particle measurements, it is suggested that the anomalous penetration electric field perturbations on this night arise from the effects of IMF By and substorm.
Plain Language Summary Variation in the zonal electric field in the equatorial ionosphere during post-sunset hours is important to understand the plasma distribution over low latitudes and also generation of plasma irregularities. The changes in the ionospheric conditions over low/equatorial latitudes have implications for communication and navigational applications. Therefore, if ionospheric electric field over equatorial ionosphere behaves anomalously during space weather events, it will be difficult to model the low latitude ionosphere for scientific understanding and practical applications. In this investigation, we show that the less studied Y-component of interplanetary magnetic field and substorm can significantly modulate the ionospheric electric field giving rise to anomalous response |
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