An Open-Access Data Set of Active-Source and Passive-Wavefield DAS and Nodal Seismometer Measurements at the Newberry Florida Site

IF 2.6 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Aser Abbas, Brady R. Cox, Khiem T. Tran, Isabella Corey, Nishkarsha Dawadi
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Abstract

This article documents a comprehensive subsurface imaging experiment using seismic waves in a well-studied outdoor laboratory at Newberry, Florida, which is known for significant spatial variability, karstic voids, and underground anomalies. The experiment used approximately two kilometers of distributed acoustic sensing (DAS) fiber-optic cable, forming a dense 2D array of 1920 horizontal-component channels, and a 2D array of 144 SmartSolo three-component nodal seismometers, to sense active-source and passive-wavefield seismic waves. The active-source data were generated using a powerful, triaxial vibroseis shaker truck (T-Rex) and impact sources (accelerated weight drop and an eight-pound sledgehammer) that were simultaneously recorded by both the DAS and nodal seismometers. The vibroseis truck was used to excite the ground in three directions (two horizontal and one vertical) at 260 locations inside and outside the instrumented array, whereas the impact sources were used at 268 locations within the instrumented array. The passive-wavefield data recorded using the nodal seismometers comprised 48 hr of ambient noise collected over a period of four days in four 12-hour time blocks, whereas the passive wavefield data collected using DAS consisted of four hours of ambient noise recordings. This article aims to provide a comprehensive overview of the testing site, experiment layout, the DAS and nodal seismometer acquisition parameters, and implemented raw data processing steps. Although potential use cases, such as surface-wave testing, full-waveform inversion, and ambient noise tomography, are discussed relative to example data, the focus of this article is on documenting this unique data set and presenting its initial data quality rather than on generating subsurface imaging results. The raw and processed data, along with detailed documentation of the experiment and Python tools to aid in visualizing the DAS data set, have been made publicly available.
佛罗里达州纽伯里遗址主动源和被动波场 DAS 及节点地震仪测量数据的开放访问数据集
这篇文章记录了在佛罗里达州纽伯里一个经过充分研究的室外实验室利用地震波进行的综合地下成像实验,该实验室以显著的空间变化、岩溶空洞和地下异常而闻名。实验使用了约两公里长的分布式声学传感(DAS)光纤电缆,形成了一个由 1920 个水平分量通道组成的密集二维阵列,以及一个由 144 个 SmartSolo 三分量节点地震仪组成的二维阵列,以感知主动源和被动波场地震波。主动源数据是通过一台大功率三轴振动台车(T-Rex)和冲击源(加速重物下落和八磅大锤)生成的,同时由 DAS 和节点地震仪记录。振动车用于在仪器阵列内外的 260 个位置从三个方向(两个水平方向和一个垂直方向)激发地面,而冲击源用于仪器阵列内的 268 个位置。使用节点地震仪记录的被动波场数据由 48 小时的环境噪声组成,这些噪声在四天内分四个 12 小时的时间段收集,而使用 DAS 收集的被动波场数据由四小时的环境噪声记录组成。本文旨在全面概述试验场地、试验布局、DAS 和节点地震仪采集参数以及实施的原始数据处理步骤。虽然讨论了与示例数据相关的潜在用例,如面波测试、全波形反演和环境噪声层析成像,但本文的重点是记录这个独特的数据集,并介绍其初始数据质量,而不是生成地下成像结果。原始数据和处理过的数据,以及详细的实验文档和帮助可视化 DAS 数据集的 Python 工具,均已公开发布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Seismological Research Letters
Seismological Research Letters 地学-地球化学与地球物理
CiteScore
6.60
自引率
12.10%
发文量
239
审稿时长
3 months
期刊介绍: Information not localized
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