中国大陆浅层地壳地震的快速焦点力学解决方案

Zhigao Yang, Tairan Xu, Jianhong Liang
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引用次数: 0

摘要

我们基于地震速报系统(ERR)和中国地震台网中心(CENC)提供的 1000 个宽带地震台的实时三分量地震波形流,开发了区域焦距机制自动反演系统。该系统在接收到ERR系统的地震信息后,可在5-15分钟内快速提供双偶解及中心点深度。数据处理由 ERR 系统获取的地震信息触发。该系统能够确定中国大陆所有 5.5-6.5 级浅源地震的震源机制。该系统利用震中 500 公里范围内地震台记录的波形数据,可在地震发生后 5-15 分钟内报告焦点机制解决方案。此外,该系统还能为焦点机制解决方案分配相应的等级(A B C)。我们共处理了 2021 年至 2022 年 6 月发生的 301 次地震,经过质量控制,选出了其中的 166 次。这些被选中的解决方案经过人工检查,其中 160 个被编入焦点机制目录。该目录可通过互联网在线下载,非常方便。华东地区地震的自动焦点机制解与全球中心矩张量(GCMT)提供的解具有良好的一致性。该目录与 GCMT 之间的平均卡根角为 22°,而平均兆瓦数差为 0.17。此外,与 GCMT 相比,我们星表中的最小星等从大约 5.0 降到了 4.0。中国大陆中心点深度与地壳厚度的相关性证实了中心点深度的分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards fast focal mechanism inversion of shallow crustal earthquakes in the Chinese mainland

We have developed an automatic regional focal mechanism inversion system based on the Earthquake Rapid Report (ERR) system and the real-time three-component seismic waveform stream of 1 000 broadband seismic stations provided by the China Earthquake Networks Center (CENC). The system can rapidly provide a double couple solution and centroid depth within 5–15 ​min after receiving earthquake information from the ERR system. The data processing is triggered by earthquake information obtained from the ERR system. The system is capable of determining the focal mechanism of all shallow-depth earthquakes in the Chinese mainland with a magnitude of 5.5–6.5. It utilizes waveform data recorded by seismic stations located within 500 ​km from the epicenter, enabling the reporting of a focal mechanism solution within 5–15 ​min of an earthquake occurrence. Additionally, the system can assign a corresponding grade (A B C) to the focal mechanism solution. We processed a total of 301 earthquakes that occurred from 2021 to June 2022, and after the quality control, 166 of them were selected. These selected solutions were manually checked, and 160 of them were compiled in a focal mechanism catalog. This catalog can be conveniently downloaded online via the Internet. The automatic focal mechanism solution of earthquakes in eastern China exhibits a good agreement with that provided by the Global Centroid Moment Tensor (GCMT), when available. The average Kagan angle between this catalog and GCMT is 22°, and the average difference in MW is 0.17. Furthermore, compared with GCMT, the minimum magnitude of our catalog has been reduced from approximately 5.0 to 4.0. The correlation between the centroid depth and crustal thickness in the Chinese mainland confirms the distribution of the centroid depth.

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