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Bibliographic Details
Main Author: Xu, Shiqing
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2304.08016
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author Xu, Shiqing
author_facet Xu, Shiqing
contents Stress drop $Δτ$ and rupture speed $V_r$ are two important earthquake source parameters that control the characteristics of rupture process and the associated ground motion. However, how the two parameters correlate with one another is not fully clear and sometimes can be controversial. Here I propose using the energy balance relation derived from fracture mechanics to understand the correlation between $Δτ$ and $V_r$. The central idea is to explore the balance between fracture energy $G_c$ and dynamic energy release rate $G_d$ (which itself is a function of $Δτ$ and $V_r$) under various conditions of $G_c$. Using averaged values of $Δτ$ and $V_r$ for comparison, it is shown that near constant $G_c$ can yield a positive correlation between $Δτ$ and $V_r$, whereas variable $G_c$ dependent on space, time or other factors may cause a negative correlation between $Δτ$ and $V_r$. These results suggest a need to examine the condition of other factors (such as $G_c$) when evaluating the correlation between $Δτ$ and $V_r$. Extra issues can complicate the evaluation of the correlation between $Δτ$ and $V_r$ when rupture process is inferred from far-field observations, accompanied by strong spatiotemporal variation, or followed by additional phases, which should be investigated by future studies.
format Preprint
id arxiv_https___arxiv_org_abs_2304_08016
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Energy-based opinion on the correlation between stress drop and rupture speed
Xu, Shiqing
Geophysics
Soft Condensed Matter
Stress drop $Δτ$ and rupture speed $V_r$ are two important earthquake source parameters that control the characteristics of rupture process and the associated ground motion. However, how the two parameters correlate with one another is not fully clear and sometimes can be controversial. Here I propose using the energy balance relation derived from fracture mechanics to understand the correlation between $Δτ$ and $V_r$. The central idea is to explore the balance between fracture energy $G_c$ and dynamic energy release rate $G_d$ (which itself is a function of $Δτ$ and $V_r$) under various conditions of $G_c$. Using averaged values of $Δτ$ and $V_r$ for comparison, it is shown that near constant $G_c$ can yield a positive correlation between $Δτ$ and $V_r$, whereas variable $G_c$ dependent on space, time or other factors may cause a negative correlation between $Δτ$ and $V_r$. These results suggest a need to examine the condition of other factors (such as $G_c$) when evaluating the correlation between $Δτ$ and $V_r$. Extra issues can complicate the evaluation of the correlation between $Δτ$ and $V_r$ when rupture process is inferred from far-field observations, accompanied by strong spatiotemporal variation, or followed by additional phases, which should be investigated by future studies.
title Energy-based opinion on the correlation between stress drop and rupture speed
topic Geophysics
Soft Condensed Matter
url https://arxiv.org/abs/2304.08016