2017年伊朗Mw7.3地震震源机制反演及三维形变场获取

Focal Mechanism Inversion and 3D Deformation Field Acquisition of Iran Mw7.3 Earthquake in 2017

  • 摘要: 2017年11月12日,伊朗伊拉克边界萨尔波勒扎哈卜(Sarpol-e Zahab)地区发生Mw7.3级强震,地震造成500余人死亡,给当地造成了严重破坏,但发震断层并未导致地表的破裂。为研究地震震源机制以及地震造成的地壳形变,首先使用ALOS-2和Sentinel-1卫星数据,用差分干涉测量方法获得了地震同震形变场,然后使用分辨率约束的四叉树采样方法对观测数据进行降采样。在此基础上,使用二步反演算法对断层面进行剖分,反演获取了发震断层的精确几何参数和最优断层滑动分布。反演结果表明,发震断层是一个逆冲兼具右旋走滑的断层,确定断层走向为347°,倾角为15°,地震滑动主要分布在16~19 km深度范围内,最大倾滑量为4.5 m。基于反演的断层模型,正演得到地震三维形变场,结果表明,地震造成的形变主要在垂直方向,垂直向上的隆升形变量达78.8 cm。震源机制反演结果和三维形变场结果与地震学的研究结果比较一致。

     

    Abstract: On November 12, 2017, a strong Mw7.3 earthquake occurred in the Sarpol-e Zahab region on the Iranian-Iraqi border, killing more than 500 people. Earthquakes cause serious damage, but do not cause rupture of seismogenic faults on the earth's surface. In order to study the focal mechanism of earthquakes and the crustal deformation caused by earthquakes, this paper uses ALOS-2 and Sentinel-1 satellite data, obtains the seismic co-seismic deformation field by over-differential interferometry, and then uses the resolution constrained quadtree sampling method to observe it. The data are sampled for down sampling. On this basis, a two-step inversion algorithm is used to subdivide the fault plane, and the precise geometric parameters and the optimal fault slip distribution are obtained by inversion. The inversion results show that the seismogenic fault is a fault with thrust and dextral strike slip, and the fault strike is determined 347°. The inclination angle is 15°. The distribution of seismic slip is mainly distributed in16-19 km. The depth range and the maximum tilting slip are 4.5 m. Based on the inversion of the fault model, the 3D seismic deformation field is obtained. The results of the 3D seismic deformation field show that the deformation caused by the earthquake is mainly in the vertical direction, and the vertical uplift deformation reaches 78.8 cm. The inversion results of the focal mechanism and the three-dimensional deformation field results are in good agreement with the seismological research results.

     

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