Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia

The mantle electrical conductivity-depth structure of Malaysia was determined for the first time using solar quiet day ionospheric current (Sq) variations. Spherical harmonic analysis (SHA) was employed to separate the external and internal field contribution to the Sq variations. A transfer functio...

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Main Authors: Abidin, Zamri Zainal, Jusoh, Mohamad Huzaimy, Abbas, M., Yoshikawa, Akimasa
Format: Article
Published: Elsevier 2019
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Online Access:http://eprints.um.edu.my/24280/
https://doi.org/10.1016/j.jastp.2018.01.019
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spelling my.um.eprints.242802020-05-08T05:03:43Z http://eprints.um.edu.my/24280/ Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia Abidin, Zamri Zainal Jusoh, Mohamad Huzaimy Abbas, M. Yoshikawa, Akimasa Q Science (General) QC Physics The mantle electrical conductivity-depth structure of Malaysia was determined for the first time using solar quiet day ionospheric current (Sq) variations. Spherical harmonic analysis (SHA) was employed to separate the external and internal field contribution to the Sq variations. A transfer function was applied in estimating the conductivity-depth profile for the paired of external and internal coefficients of the SHA. We observed a downward increase in electrical conductivity with initial magnitude of 0.0065 S/m at a depth of ∼ 56 km which gradually rose to 0.0106 and 0.0140 S/m at 118 and 180 km. Subsequently, the conductivity profile rose to about 0.0228 S/m at 380 km (near the base of the upper mantle) and reached 0.0260 S/m at 435 km, after which a sharp steep increase was observed at 450 km with conductivity profile of 0.0278 S/m. Consequently, the conductivity profile increases significantly to about 0.1367 S/m at a depth of 973 km and reached its peak value 0.1975 S/m at the depth of 1097 km in the lower mantle with no indication of leveling off. An evidence of discontinuity was observed near 390–460 km and 675–746 km. A slight increase in conductivity values at depth between 150 and 300 km corresponds to the region of unusual global low velocity zone with high electrical conductivity. The conductivity profile showed a less steep increase above 450 km below which a steep increase was observed. The present profile showed the deepest penetration depth which may be attributed to the influence of equatorial electrojet current (EEJ) that is actively supported by the conductive properties of the Earth's interior within the study region. © 2018 Elsevier Ltd Elsevier 2019 Article PeerReviewed Abidin, Zamri Zainal and Jusoh, Mohamad Huzaimy and Abbas, M. and Yoshikawa, Akimasa (2019) Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia. Journal of Atmospheric and Solar-Terrestrial Physics, 192. p. 104776. ISSN 1364-6826 https://doi.org/10.1016/j.jastp.2018.01.019 doi:10.1016/j.jastp.2018.01.019
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic Q Science (General)
QC Physics
spellingShingle Q Science (General)
QC Physics
Abidin, Zamri Zainal
Jusoh, Mohamad Huzaimy
Abbas, M.
Yoshikawa, Akimasa
Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia
description The mantle electrical conductivity-depth structure of Malaysia was determined for the first time using solar quiet day ionospheric current (Sq) variations. Spherical harmonic analysis (SHA) was employed to separate the external and internal field contribution to the Sq variations. A transfer function was applied in estimating the conductivity-depth profile for the paired of external and internal coefficients of the SHA. We observed a downward increase in electrical conductivity with initial magnitude of 0.0065 S/m at a depth of ∼ 56 km which gradually rose to 0.0106 and 0.0140 S/m at 118 and 180 km. Subsequently, the conductivity profile rose to about 0.0228 S/m at 380 km (near the base of the upper mantle) and reached 0.0260 S/m at 435 km, after which a sharp steep increase was observed at 450 km with conductivity profile of 0.0278 S/m. Consequently, the conductivity profile increases significantly to about 0.1367 S/m at a depth of 973 km and reached its peak value 0.1975 S/m at the depth of 1097 km in the lower mantle with no indication of leveling off. An evidence of discontinuity was observed near 390–460 km and 675–746 km. A slight increase in conductivity values at depth between 150 and 300 km corresponds to the region of unusual global low velocity zone with high electrical conductivity. The conductivity profile showed a less steep increase above 450 km below which a steep increase was observed. The present profile showed the deepest penetration depth which may be attributed to the influence of equatorial electrojet current (EEJ) that is actively supported by the conductive properties of the Earth's interior within the study region. © 2018 Elsevier Ltd
format Article
author Abidin, Zamri Zainal
Jusoh, Mohamad Huzaimy
Abbas, M.
Yoshikawa, Akimasa
author_facet Abidin, Zamri Zainal
Jusoh, Mohamad Huzaimy
Abbas, M.
Yoshikawa, Akimasa
author_sort Abidin, Zamri Zainal
title Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia
title_short Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia
title_full Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia
title_fullStr Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia
title_full_unstemmed Application of solar quiet (Sq) current in determining mantle conductivity-depth structure in Malaysia
title_sort application of solar quiet (sq) current in determining mantle conductivity-depth structure in malaysia
publisher Elsevier
publishDate 2019
url http://eprints.um.edu.my/24280/
https://doi.org/10.1016/j.jastp.2018.01.019
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score 13.211869