Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor

The physical destruction and fatalities caused by earthquake events has compelled scientists to develop a method for predicting Earthquakes. It is almost impossible to detect earthquake events due to limited seismometer sensitivity; therefore, a non-seismological predictor was established by using t...

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Published in:Advances in Space Research
Main Author: Syed Zafar S.N.A.; Umar R.; Hazmin S.N.; Jusoh M.H.; Yoshikawa A.; Abe S.; Uozumi T.; Afandi N.Z.M.; Mahiddin N.A.
Format: Article
Language:English
Published: Elsevier Ltd 2024
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85176929032&doi=10.1016%2fj.asr.2023.10.036&partnerID=40&md5=43254f5584e87bf7c8ccd34648f26364
id 2-s2.0-85176929032
spelling 2-s2.0-85176929032
Syed Zafar S.N.A.; Umar R.; Hazmin S.N.; Jusoh M.H.; Yoshikawa A.; Abe S.; Uozumi T.; Afandi N.Z.M.; Mahiddin N.A.
Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
2024
Advances in Space Research
73
3
10.1016/j.asr.2023.10.036
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85176929032&doi=10.1016%2fj.asr.2023.10.036&partnerID=40&md5=43254f5584e87bf7c8ccd34648f26364
The physical destruction and fatalities caused by earthquake events has compelled scientists to develop a method for predicting Earthquakes. It is almost impossible to detect earthquake events due to limited seismometer sensitivity; therefore, a non-seismological predictor was established by using the Ultra-Low Frequency (ULF) magnetic field as a potential earthquake precursor. ULF waves respond to magnetic activity that are transferred to Earth by solar winds, and become ultimately linked to earthquake events. The statistical correlation analysis is used between ULF Pc4 and Pc5 pulsation, solar wind parameters; IMF- component (Bz), solar wind speed (Vsw), solar wind pressure (Psw), solar wind input energy (IEsw), and near-equator geomagnetic storm (SYM/H ). Through a multiple regression modelled approach, the relationship between solar wind (SW) parameters (IMF-Bz, Vsw, Psw, IEsw) and near-equator geomagnetic index (SYM/H ) with ULF wave pulsations (Pc4 - Pc5) prior to an earthquake (EQ) event (magnitude, M = 3.0–6.0, depth, d < 100 km, epicentre distance from magnetometer station, r < 100 km) was determined. The solar wind and geomagnetic index parameters were obtained from OMNIWeb, where ULF pulsations (Pc4 - Pc5) were computed from the magnetometer Davao station (Philippines) (7.00oN, 125.40oE) located in a low latitude region. The ULF Pc5 band demonstrated the best fit for the ULF earthquake precursor model in relation to solar wind parameters (Vsw, Psw) and geomagnetic index (SYM/H ) with R2 and R2-adjusted values of (R2 =0.5011, R2-adj = 0.4940). The Vsw, Psw and SYM/H are major factors that contribute to the emission of ULF Pc5 prior to an earthquake, as determined by the stepwise regression method. This ULF earthquake precursor model is intended to address the problem seismologists face when predicting seismic events by assisting non-seismologists in locating the most effective EM-ULF wave bands in solar-terrestrial activities for detecting seismic events. © 2023 COSPAR
Elsevier Ltd
2731177
English
Article

author Syed Zafar S.N.A.; Umar R.; Hazmin S.N.; Jusoh M.H.; Yoshikawa A.; Abe S.; Uozumi T.; Afandi N.Z.M.; Mahiddin N.A.
spellingShingle Syed Zafar S.N.A.; Umar R.; Hazmin S.N.; Jusoh M.H.; Yoshikawa A.; Abe S.; Uozumi T.; Afandi N.Z.M.; Mahiddin N.A.
Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
author_facet Syed Zafar S.N.A.; Umar R.; Hazmin S.N.; Jusoh M.H.; Yoshikawa A.; Abe S.; Uozumi T.; Afandi N.Z.M.; Mahiddin N.A.
author_sort Syed Zafar S.N.A.; Umar R.; Hazmin S.N.; Jusoh M.H.; Yoshikawa A.; Abe S.; Uozumi T.; Afandi N.Z.M.; Mahiddin N.A.
title Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
title_short Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
title_full Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
title_fullStr Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
title_full_unstemmed Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
title_sort Modelling of ULF Pc4 - Pc5 Pulsations with solar winds and geomagnetic storm for ULF earthquake precursor
publishDate 2024
container_title Advances in Space Research
container_volume 73
container_issue 3
doi_str_mv 10.1016/j.asr.2023.10.036
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85176929032&doi=10.1016%2fj.asr.2023.10.036&partnerID=40&md5=43254f5584e87bf7c8ccd34648f26364
description The physical destruction and fatalities caused by earthquake events has compelled scientists to develop a method for predicting Earthquakes. It is almost impossible to detect earthquake events due to limited seismometer sensitivity; therefore, a non-seismological predictor was established by using the Ultra-Low Frequency (ULF) magnetic field as a potential earthquake precursor. ULF waves respond to magnetic activity that are transferred to Earth by solar winds, and become ultimately linked to earthquake events. The statistical correlation analysis is used between ULF Pc4 and Pc5 pulsation, solar wind parameters; IMF- component (Bz), solar wind speed (Vsw), solar wind pressure (Psw), solar wind input energy (IEsw), and near-equator geomagnetic storm (SYM/H ). Through a multiple regression modelled approach, the relationship between solar wind (SW) parameters (IMF-Bz, Vsw, Psw, IEsw) and near-equator geomagnetic index (SYM/H ) with ULF wave pulsations (Pc4 - Pc5) prior to an earthquake (EQ) event (magnitude, M = 3.0–6.0, depth, d < 100 km, epicentre distance from magnetometer station, r < 100 km) was determined. The solar wind and geomagnetic index parameters were obtained from OMNIWeb, where ULF pulsations (Pc4 - Pc5) were computed from the magnetometer Davao station (Philippines) (7.00oN, 125.40oE) located in a low latitude region. The ULF Pc5 band demonstrated the best fit for the ULF earthquake precursor model in relation to solar wind parameters (Vsw, Psw) and geomagnetic index (SYM/H ) with R2 and R2-adjusted values of (R2 =0.5011, R2-adj = 0.4940). The Vsw, Psw and SYM/H are major factors that contribute to the emission of ULF Pc5 prior to an earthquake, as determined by the stepwise regression method. This ULF earthquake precursor model is intended to address the problem seismologists face when predicting seismic events by assisting non-seismologists in locating the most effective EM-ULF wave bands in solar-terrestrial activities for detecting seismic events. © 2023 COSPAR
publisher Elsevier Ltd
issn 2731177
language English
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