Earthquake magnitude estimation based on peak ground displacements recorded by high-rate GNSS for February 6, 2023, earthquake sequence in Turkiye

In this study, the global navigation satellite system (GNSS) high-rate data of 162 stations during the February 6, 2023, Kahramanmaraş earthquake sequence (Mw: 7.8 and Mw: 7.6) were evaluated with Precise Point Positioning (PPP) method. Co-seismic displacement time series of each of the GNSS station...

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Veröffentlicht in:	European physical journal plus 2024-09, Vol.139 (9), p.817, Article 817
Hauptverfasser:	Solak, Halil İbrahim, Şentürk, Murat Doruk, Çakanşimşek, Ece Bengünaz, Yaşar, Şeyma Şafak, Eyübagil, Eda Esma, Erdoğan, Atalay Okan, Aktuğ, Bahadır, Yiğit, Cemal Özer, Tiryakioğlu, İbrahim
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Sprache:	eng
Schlagworte:	Applied and Technical Physics Atomic Complex Systems Condensed Matter Physics Earthquakes Emergency communications systems Fault lines Global navigation satellite system Ground motion Kinematics Mathematical and Computational Physics Molecular Optical and Plasma Physics Physics Physics and Astronomy Regression coefficients Regular Article Seismic activity Theoretical Time series
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creator	Solak, Halil İbrahim Şentürk, Murat Doruk Çakanşimşek, Ece Bengünaz Yaşar, Şeyma Şafak Eyübagil, Eda Esma Erdoğan, Atalay Okan Aktuğ, Bahadır Yiğit, Cemal Özer Tiryakioğlu, İbrahim
description	In this study, the global navigation satellite system (GNSS) high-rate data of 162 stations during the February 6, 2023, Kahramanmaraş earthquake sequence (Mw: 7.8 and Mw: 7.6) were evaluated with Precise Point Positioning (PPP) method. Co-seismic displacement time series of each of the GNSS stations during the earthquake sequence were generated. The results showed the amplitude of displacement decreased with increasing hypocentral distance. Both regression coefficients and the magnitudes of the February 6, 2023, Kahramanmaraş earthquakes were estimated by the peak ground displacement (PGD) obtained from these time series. The final magnitude estimated from the PGD was Mw 7.8 and Mw 7.6 for both earthquakes, respectively. Our results show that using high-rate GNSS data, earthquake magnitudes can be calculated with high accuracy by using regression coefficient suggested by Ruhl et al. (Seismol Res Lett, 90: 271-279, 2019).
doi_str_mv	10.1140/epjp/s13360-024-05576-3
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Phys. J. Plus</addtitle><description>In this study, the global navigation satellite system (GNSS) high-rate data of 162 stations during the February 6, 2023, Kahramanmaraş earthquake sequence (Mw: 7.8 and Mw: 7.6) were evaluated with Precise Point Positioning (PPP) method. Co-seismic displacement time series of each of the GNSS stations during the earthquake sequence were generated. The results showed the amplitude of displacement decreased with increasing hypocentral distance. Both regression coefficients and the magnitudes of the February 6, 2023, Kahramanmaraş earthquakes were estimated by the peak ground displacement (PGD) obtained from these time series. The final magnitude estimated from the PGD was Mw 7.8 and Mw 7.6 for both earthquakes, respectively. Our results show that using high-rate GNSS data, earthquake magnitudes can be calculated with high accuracy by using regression coefficient suggested by Ruhl et al. 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subjects	Applied and Technical Physics Atomic Complex Systems Condensed Matter Physics Earthquakes Emergency communications systems Fault lines Global navigation satellite system Ground motion Kinematics Mathematical and Computational Physics Molecular Optical and Plasma Physics Physics Physics and Astronomy Regression coefficients Regular Article Seismic activity Theoretical Time series
title	Earthquake magnitude estimation based on peak ground displacements recorded by high-rate GNSS for February 6, 2023, earthquake sequence in Turkiye
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