Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff

Geomagnetically Induced Currents, which significantly impact the functionality and safety of power grids and electronic communication systems, are of growing concern within equatorial due to the escalating intensity of solar events during Solar Cycle 24. This study investigates the causes and charac...

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Main Author: Abd Latiff, Zatul Iffah
Format: Thesis
Language:English
Published: 2024
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Online Access:https://ir.uitm.edu.my/id/eprint/106743/1/106743.pdf
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spelling my-uitm-ir.1067432024-11-24T15:47:06Z Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff 2024 Abd Latiff, Zatul Iffah Solar system Geomagnetically Induced Currents, which significantly impact the functionality and safety of power grids and electronic communication systems, are of growing concern within equatorial due to the escalating intensity of solar events during Solar Cycle 24. This study investigates the causes and characteristics of intense Geomagnetically Induced Currents (GICs) in the equatorial region, with a focus on the influence of space weather parameters during solar cycle 24 where three core objectives were pursued which are analyzing the ground magnetic response to space weather events through the temporal variation of the geomagnetic field (dB/dt), characterizing the key parameters in interplanetary shock waves that trigger GIC, and developing an empirical model to characterize the equatorial dB/dt in response to these events. Methodologically, the study leverages SuperMAG Ring index values to categorize geomagnetic storms and correlates geomagnetic field variations with solar wind parameters such as speed and dynamic pressure, uncovering a predominant occurrence of GICs during the initial phases of severe geomagnetic storms. These findings provide foundational insights into how Earth's magnetosphere is influenced by solar activity, thereby provide indication for the prediction of potential geomagnetic storms and substorms. Additionally, a comprehensive analysis revealed that high speeds and angles in interplanetary shock waves are directly correlated with increased equatorial GIC activity. A statistical approach confirmed that when both parameters are high, a substantial increase in GICs can be expected, highlighting their mutual importance for equatorial GIC activities induced by space weather events. The resulting empirical model, utilizing the linear regression model was developed to characterize equatorial GIC activity attributed to space weather events in solar cycle 24. This empirical characterization incorporates key variables such as IP shock angle, IP shock speed, Rise Time, ASMR, GMD, and GML. From the established empirical characterization, region-specific sensitivity was observed, with different sector having different vulnerability to geomagnetic disturbances. Moreover, diurnal fluctuations in GIC activities were also examined, revealing significant variations based on Earth's relative position to the Sun as well as evolving geomagnetic and ionospheric conditions. In conclusion, the study offers a comprehensive understanding of the mechanisms influencing equatorial GIC activities, and their correlation with interplanetary shocks and other geomagnetic variables. The insights gained have crucial implications for both space weather forecasting and the overall stability of Earth-based electrical infrastructures, marking a significant advancement in the field. 2024 Thesis https://ir.uitm.edu.my/id/eprint/106743/ https://ir.uitm.edu.my/id/eprint/106743/1/106743.pdf text en public phd doctoral Universiti Teknologi MARA (UiTM) College of Engineering
institution Universiti Teknologi MARA
collection UiTM Institutional Repository
language English
topic Solar system
spellingShingle Solar system
Abd Latiff, Zatul Iffah
Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff
description Geomagnetically Induced Currents, which significantly impact the functionality and safety of power grids and electronic communication systems, are of growing concern within equatorial due to the escalating intensity of solar events during Solar Cycle 24. This study investigates the causes and characteristics of intense Geomagnetically Induced Currents (GICs) in the equatorial region, with a focus on the influence of space weather parameters during solar cycle 24 where three core objectives were pursued which are analyzing the ground magnetic response to space weather events through the temporal variation of the geomagnetic field (dB/dt), characterizing the key parameters in interplanetary shock waves that trigger GIC, and developing an empirical model to characterize the equatorial dB/dt in response to these events. Methodologically, the study leverages SuperMAG Ring index values to categorize geomagnetic storms and correlates geomagnetic field variations with solar wind parameters such as speed and dynamic pressure, uncovering a predominant occurrence of GICs during the initial phases of severe geomagnetic storms. These findings provide foundational insights into how Earth's magnetosphere is influenced by solar activity, thereby provide indication for the prediction of potential geomagnetic storms and substorms. Additionally, a comprehensive analysis revealed that high speeds and angles in interplanetary shock waves are directly correlated with increased equatorial GIC activity. A statistical approach confirmed that when both parameters are high, a substantial increase in GICs can be expected, highlighting their mutual importance for equatorial GIC activities induced by space weather events. The resulting empirical model, utilizing the linear regression model was developed to characterize equatorial GIC activity attributed to space weather events in solar cycle 24. This empirical characterization incorporates key variables such as IP shock angle, IP shock speed, Rise Time, ASMR, GMD, and GML. From the established empirical characterization, region-specific sensitivity was observed, with different sector having different vulnerability to geomagnetic disturbances. Moreover, diurnal fluctuations in GIC activities were also examined, revealing significant variations based on Earth's relative position to the Sun as well as evolving geomagnetic and ionospheric conditions. In conclusion, the study offers a comprehensive understanding of the mechanisms influencing equatorial GIC activities, and their correlation with interplanetary shocks and other geomagnetic variables. The insights gained have crucial implications for both space weather forecasting and the overall stability of Earth-based electrical infrastructures, marking a significant advancement in the field.
format Thesis
qualification_name Doctor of Philosophy (PhD.)
qualification_level Doctorate
author Abd Latiff, Zatul Iffah
author_facet Abd Latiff, Zatul Iffah
author_sort Abd Latiff, Zatul Iffah
title Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff
title_short Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff
title_full Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff
title_fullStr Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff
title_full_unstemmed Empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / Zatul Iffah Abd Latiff
title_sort empirical characterization of geomagnetically induced currents at equatorial region due to space weather perturbations in solar cycle 24 / zatul iffah abd latiff
granting_institution Universiti Teknologi MARA (UiTM)
granting_department College of Engineering
publishDate 2024
url https://ir.uitm.edu.my/id/eprint/106743/1/106743.pdf
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