Indian Journal of Radio & Space Physics

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Vertical variance analysis of geomagnetic disturbance during solar cycle 23


Affiliations
1 Department of Physics, Christian College, Chengannur, Kerala 689 122, India
2 Department of Physics, University of Kerala, Trivandrum, Kerala 695 581, India
3 Department of Physics, University of Kerala, Trivandrum, Kerala 695 581,, India
4 Department of Physics, SD College, Alleppey, Kerala 688 003, India
 

The geomagnetic field consists of temporal variations induced primarily by the variations in the solar wind and embedded interplanetary magnetic field. 34 stations across the Earth have been categorized in this paper on the basis of their geomagnetic disturbance during solar cycle 23 (1997-2008). The Vertical Variance (VV) disturbance quantifier has been used to develop such profile. The latitude profile of geomagnetic disturbance has been found to exhibit a typical ‘Knee’ behaviour, with the fluctuation content seen to rise sharply beyond this critical latitude determined near 52° latitude. The increasing trend in geomagnetic fluctuation content however is seen to end around the auroral oval beyond where abrupt variations has been observed indicating the transition from closed to open magnetic field lines. The physical mechanism behind this trend has also been explored. The VV analysis of geomagnetic disturbance has revealed prominent features of solar wind – magnetosphere coupling.
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  • Vertical variance analysis of geomagnetic disturbance during solar cycle 23

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Authors

Abraham Abraham
Department of Physics, Christian College, Chengannur, Kerala 689 122, India
Renuka Gangadharan
Department of Physics, University of Kerala, Trivandrum, Kerala 695 581, India
Ligi Cherian
Department of Physics, Christian College, Chengannur, Kerala 689 122, India
Asha Anie Varghese
Department of Physics, Christian College, Chengannur, Kerala 689 122, India
Rakesh Chandran
Department of Physics, University of Kerala, Trivandrum, Kerala 695 581,, India
Tiju Joseph Mathew
Department of Physics, University of Kerala, Trivandrum, Kerala 695 581, India
Jim Chacko
Department of Physics, Christian College, Chengannur, Kerala 689 122, India
Blessy Varghese
Department of Physics, Christian College, Chengannur, Kerala 689 122, India
Gopika Sreela Vijayan
Department of Physics, Christian College, Chengannur, Kerala 689 122, India
Ankitha Nandakumar
Department of Physics, Christian College, Chengannur, Kerala 689 122, India
Lekshmi Sankarapillai
Department of Physics, SD College, Alleppey, Kerala 688 003, India
Syamily Prasannan
Department of Physics, Christian College, Chengannur, Kerala 689 122, India

Abstract


The geomagnetic field consists of temporal variations induced primarily by the variations in the solar wind and embedded interplanetary magnetic field. 34 stations across the Earth have been categorized in this paper on the basis of their geomagnetic disturbance during solar cycle 23 (1997-2008). The Vertical Variance (VV) disturbance quantifier has been used to develop such profile. The latitude profile of geomagnetic disturbance has been found to exhibit a typical ‘Knee’ behaviour, with the fluctuation content seen to rise sharply beyond this critical latitude determined near 52° latitude. The increasing trend in geomagnetic fluctuation content however is seen to end around the auroral oval beyond where abrupt variations has been observed indicating the transition from closed to open magnetic field lines. The physical mechanism behind this trend has also been explored. The VV analysis of geomagnetic disturbance has revealed prominent features of solar wind – magnetosphere coupling.