Earthquake Source Parameters in Zagros Region (Iran) From the Time -Evolutive P-wave Displacement

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Abstract

The rupture process of the recent moderate-to-large earthquakes in the Zagros area along the Iran plateau is investigated by analysing the strong motion data provided by the Iranian Building and Housing Research Centre (BHRC). The selected dataset includes the largest and deadliest 2017 Mw 7.3, Iran-Iraq (Ezgeleh) earthquake. The earthquake source parameters (moment magnitude, rupture duration and length, average slip, and static stress drop) are determined using a time-domain, parametric modelling technique based on the time evolution of the P-wave displacement signals. The earthquake source parameters are calculated from simulated triangular moment-rate functions assuming the circular source models for a constant rupture velocity. The anelastic attenuation effect is modelled through the independent frequency-Q parameter ranging from 50 to 200 and accounted for by a post-processing procedure that retrieves the attenuation-corrected, moment-rate triangular shape. Results show that the average static stress-drop with different \({Q}_{P}\), varies between =0.9 (0.7 − 1.2) MPa and =1.6 (1.2 − 2.0) MPa. Assuming a circular rupture model for Ezgeleh earthquake, we estimate a moment magnitude of 6.9, rupture duration of 7 seconds, source radius of 16 km, average slip of about 2 m and static stress drop of 3.4 MPa.

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License: CC-BY-4.0