根据重力测量和地震测量数据的联合分析确定地球的地震结构--案例研究

IF 0.4 Q4 ENVIRONMENTAL SCIENCES
Kamila Karkowska, M. Wilde-Piórko, P. Dykowski, Marcin Sękowski, Marcin Polkowski
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引用次数: 0

摘要

地球表面的演变受到外部和内部力量的驱动,而后者只能通过间接方式进行研究。有关地球内部结构的知识对于地表过程的建模和预测非常重要。本研究提出了一个新概念,即联合分析地震的重力测量和地震测量记录,以确定深达 1250 千米的地球地震结构。所提出的方法允许在没有已知仪器全传递函数的情况下使用重力数据。根据对欧洲五个试验场同一地点运行的超导重力仪和宽带地震仪记录的联合分析,测量了周期为 550 秒以内的雷利波基模的群速度频散曲线,从而探索了对传入地震波的更广泛响应。通过加权线性反演和蒙特卡洛方法,对每个测试点的全球地震平均频散曲线进行反演,以估计地幔中剪切波地震速度的分布。确定性反演法和概率反演法的比较可以很好地证明面波确定地幔结构的能力。反演结果与全球 ak135 地震模型(Kennett 等,1995 年)进行了比较,以验证所提出的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Determination of the seismic structure of the Earth based on joint analysis of gravimetric and seismometric data – a case study
The evolution of the Earth’s surface is driven by external and internal forces, the latter of which can only be studied indirectly. Knowledge about the structure of the Earth’s interior is very important for modeling and predicting the processes occurring at the surface. This study presents a new concept of joint analysis of the gravimetric and seismometric recordings of earthquakes for determining the seismic structure of the Earth down to the depth of 1250 km. The proposed method allows the use of gravimetric data without the known full transfer function of the instrument. Group velocity dispersion curves of the fundamental mode of Rayleigh waves up to the period of 550 s are measured based on the joint analysis of the recordings of superconducting gravimeter and broadband seismometers operating at the same location in five testing sites in Europe, allowing for the exploration of a broader response for incoming seismic waves. Averaged dispersion curves for earthquakes around the world for each site are inverted by the weighted linear inversion and Monte Carlo methods to estimate the distribution of shear-wave seismic velocity in the Earth’s mantle. A comparison of the deterministic and probabilistic inversion methods can excellently demonstrate surface waves’ ability to determine the Earth’s mantle structure. The inversion results are compared with the global ak135 seismic model (Kennett et al. 1995) to verify the proposed method.
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