Estimation of interplanetary electric field conditions for historical geomagnetic storms

Ground magnetic measurements provide a unique database in understanding space weather. The continuous geomagnetic records from Colaba‐Alibag observatories in India contain historically longest and continuous observations from 1847 to present date. Some of the super intense geomagnetic storms that oc...

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Published in:Journal of geophysical research. Space physics 2015-09, Vol.120 (9), p.7307-7317
Main Authors: Kumar, Sandeep, Veenadhari, B., Tulasi Ram, S., Selvakumaran, R., Mukherjee, Shyamoli, Singh, Rajesh, Kadam, B. D.
Format: Article
Language:English
Subjects:
Advanced Composition Explorer
Electric fields
geomagnetic storms
Historic
India
interplanetary electric field
Magnetic fields
Magnetic storms
Observatories
ring current
Storms
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Summary:Ground magnetic measurements provide a unique database in understanding space weather. The continuous geomagnetic records from Colaba‐Alibag observatories in India contain historically longest and continuous observations from 1847 to present date. Some of the super intense geomagnetic storms that occurred prior to 1900 have been revisited and investigated in order to understand the probable interplanetary conditions associated with intense storms. Following Burton et al. (1975), an empirical relationship is derived for estimation of interplanetary electric field (IEFy) from the variations of Dst index and ΔH at Colaba‐Alibag observatories. The estimated IEFy values using Dst and ΔHABG variations agree well with the observed IEFy, calculated using Advanced Composition Explorer (ACE) satellite observations for intense geomagnetic storms in solar cycle 23. This study will provide the uniqueness of each event and provide important insights into possible interplanetary conditions for intense geomagnetic storms and probable frequency of their occurrence. Key Points The estimation of interplanetary E field conditions for intense magnetic storms The historical geomagnetic storms recorded at Colaba Observatory, India Variation of ring current injection rate during intense storms
ISSN:2169-9380
2169-9402
DOI:10.1002/2015JA021661