Coda wave attenuation's dependency on Lapse time and frequency in west of Iran plateau using local earthquakes

Mohsen Farrokhi,Majid Mahood,Gholam Javan-Doloei,Rouhollah Fard,Habib Rahimi

doi:10.4401/ag-8165

Mohsen Farrokhi, Majid Mahood + Show 3 more

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https://doi.org/10.4401/ag-8165

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Abstract

In this study, the attenuation of coda waves has been estimated in the western part of Iran plateau using single backscattering method. Coda wave attenuation was estimated at seven central frequencies (fc = 1.5, 3, 4.5, 6, 9, 12, 18 Hz) and eight lapse times (tl = 10, 20, 30, 40, 50, 60, 70, 80s). More than 9100 local earthquakes with magnitude range 2-5.5 and epicentral distance less than 200 km have been used in this study. The frequency dependency relation of attenuation has been determined by using Q0f n where the Q0 and n are varying from 51 to 225 and from 0.71 to 1.12 for lapse times from 10 to 80 s. The obtained low Q0 and high n values indicate that the study region is characterized by high seismic attenuation and, therefore, it is comparable with other seismically active areas.In order to investigate the attenuation at different depths, two datasets with epicentral distance less than 100 km and between 100 and 200 km were separately used. In the next step by using ellipsoidal sampled region, the variation of coda wave attenuation with depth are explored form the first dataset (epicentral distance less than 100 km). A slight decrease in the value of estimated attenuation was observed at depth of ~74 km in Western Alborz (WA) which may be related to high dissipating medium. Also an attenuation anomaly was found at Zagros and Sanandaj-Siran Zone (SSZ) at depth of ~136 and ~145 km, respectively, which may be related to the low-velocity zone caused by partial melting of the remnant of the fossil Neo-Tethyan. Using the second dataset (epicentral distance between 100 and 200 km), a clear decrease in the value of Q0 observed at depth of 178 km in SSZ, which may coincide with the bottom of Arabian lithosphere.

Highlights

Seismic wave attenuation is one of the most important properties of seismic waves
We estimated the amount of coda wave attenuation due to distributed heterogeneities, in a manner consistent with conventional seismological attenuation measurements
The trend of Q0 shows a decrease at lapse time 20 s for Western Alborz (WA) which may be due to the high dissipating media that coincided with the Lithosphere-Asthenosphere boundary (LAB) beneath Alborz

Summary

Introduction

Seismic wave attenuation is one of the most important properties of seismic waves. The seismic wave attenuation can provide important information which is necessary for interpretation of the rate of seismicity and heterogeneity within the crust and upper mantle. The amplitude of seismic wave decreases as travel distance increases in a rate higher than those of geometrical spreading. This decay arises from elastic and anelastic properties of the medium. Seismic energy is dispersed (is not dissipated) due to inhomogeneities (scattering attenuation; QSc-1), whereas in the anelastic medium, it dissipates due to the conversion of kinematic energy into heat [Farrokhi et al, 2015] which is known as intrinsic absorption (Qi-1).

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