Ionospheric vertical drifts over an Indian low latitude station and its comparison with IRI-2007 vertical drift model

•The IRI-2007 predicted drifts are showing an over estimate than those derived using the Ionosonde drifts during daytime.•The percentage of deviation for IRI-model correlation coefficient and that of Ionosonde drift for equinox 50% and summer 25%.•The percentage of deviation for IRI-model correlatio...

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Bibliographic Details
Published in:Advances in space research 2014-09, Vol.54 (6), p.946-954
Main Authors: Saranya, P.L., Prasad, D.S.V.V.D., Rama Rao, P.V.S.
Format: Article
Language:English
Subjects:
Computation
Drift
Equatorial Electrojet Strength
Ionosondes
IRI-2007
Latitude
Seasons
Stations
Summer
Vertical drifts
Winter
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Summary:•The IRI-2007 predicted drifts are showing an over estimate than those derived using the Ionosonde drifts during daytime.•The percentage of deviation for IRI-model correlation coefficient and that of Ionosonde drift for equinox 50% and summer 25%.•The percentage of deviation for IRI-model correlation coefficient and that of Ionosonde drift for winter is more than 100%.•The correlations of both calculated drifts with Rz and F10.7 shows similar variation while they are differed with Ap index. The vertical plasma drift velocity (Vz=dh′Fdt) of the Ionospheric F-Region is calculated using the Ionosonde data over an Indian low latitude station, Waltair (17.7°N, 83.3°E, dip 20°N). The vertical drift velocities thus computed are compared with those of the IRI-2007 vertical drift model during the post sunset hours of the high sunspot period of 2001–2002. The vertical drift values are entirely downward between 2000 and 0700hLT for the IRI-2007 vertical drift model compared to those derived using Ionosonde. The root mean square errors (RMSE) in the vertical drifts during the post sun-set hours computed between the IRI vertical drift model and Ionosonde measured values are found to be 13.54, 21.68 and 22.39m/s for summer, equinox and winter seasons respectively. The average vertical drifts derived using Ionosonde showing pre-reversal enhancements during evening hours (1700–1900hLT) over Waltair are found to be 8, 16 and 12m/s, whereas the IRI-2007 model derived values show 15, 35 and 36m/s during summer, equinox and winter seasons respectively. The correlation analysis of peak drift velocities derived using Ionosonde and those from IRI model with Rz and F10.7 shows more or less similar variation while they are differed in their variation with Ap index. A good correlation is observed between the vertical plasma drift obtained using Ionosonde and Equatorial Electrojet Strength (EEJ) except during winter, while the correlation coefficients computed using IRI model are little higher than those obtained using Ionosonde with maximum values during summer season. The percentage of deviation for IRI-model correlation coefficient and that of Ionosonde-inferred drift for equinoctial and summer months is around 50% and 25% respectively where as it is more than 100% for winter.
ISSN:0273-1177
1879-1948
DOI:10.1016/j.asr.2014.05.026