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Bibliographic Details
Main Authors: Latour, Soumaya, Lebihain, Mathias, Bhat, Harsha S., Twardzik, Cédric, Bletery, Quentin, Hudnut, Kenneth W., Passelègue, François
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.15461
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_version_ 1866914010202374144
author Latour, Soumaya
Lebihain, Mathias
Bhat, Harsha S.
Twardzik, Cédric
Bletery, Quentin
Hudnut, Kenneth W.
Passelègue, François
author_facet Latour, Soumaya
Lebihain, Mathias
Bhat, Harsha S.
Twardzik, Cédric
Bletery, Quentin
Hudnut, Kenneth W.
Passelègue, François
contents We present a direct measurement of the slip-rate function from a natural coseismic rupture, recorded on March 28, 2025, during the $M_w$ 7.7 Mandalay earthquake (Myanmar). This measurement was made on video footage of the surface rupture captured by a security camera located only meters away from the fault trace. Using direct image analysis, we measured the relative slip at each time step and deduced the slip rate. Our results show a local slip duration of 1.4 s and cumulative slip of $\sim$3 m, during which surface slip velocity peaked at $\sim$3.5 m/s with passage of the rupture front. These findings demonstrate the pulse-like nature of the seismic rupture, at the location of the recording. Using slip-pulse elastodynamic rupture models, we obtain the complete mechanical properties of this pulse, including the energy release rate.
format Preprint
id arxiv_https___arxiv_org_abs_2505_15461
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Direct Estimation of Earthquake Source Properties from a Single CCTV Camera
Latour, Soumaya
Lebihain, Mathias
Bhat, Harsha S.
Twardzik, Cédric
Bletery, Quentin
Hudnut, Kenneth W.
Passelègue, François
Geophysics
We present a direct measurement of the slip-rate function from a natural coseismic rupture, recorded on March 28, 2025, during the $M_w$ 7.7 Mandalay earthquake (Myanmar). This measurement was made on video footage of the surface rupture captured by a security camera located only meters away from the fault trace. Using direct image analysis, we measured the relative slip at each time step and deduced the slip rate. Our results show a local slip duration of 1.4 s and cumulative slip of $\sim$3 m, during which surface slip velocity peaked at $\sim$3.5 m/s with passage of the rupture front. These findings demonstrate the pulse-like nature of the seismic rupture, at the location of the recording. Using slip-pulse elastodynamic rupture models, we obtain the complete mechanical properties of this pulse, including the energy release rate.
title Direct Estimation of Earthquake Source Properties from a Single CCTV Camera
topic Geophysics
url https://arxiv.org/abs/2505.15461