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面向未来行星应用的分布式声学传感:月球模拟物旧金山火山区的初步结果

Distributed Acoustic Sensing for Future Planetary Applications: Initial Results From the San Francisco Volcanic Field, a Lunar Analogue.

作者信息

Harmon Nicholas, Porter Ryan, Rychert Catherine, Schmerr Nicholas, Smith Madison M, Shen Zhichao, Wu Wenbo, Giles Jacob, McCall Naoma, Wang Jingchuan, Wike Linden, West John, Hoyle Austin, Deykes Naya

机构信息

Woods Hole Oceanographic Institution Woods Hole MA USA.

Northern Arizona University Flagstaff AZ USA.

出版信息

Earth Space Sci. 2024 Dec;11(12):e2024EA003640. doi: 10.1029/2024EA003640. Epub 2024 Nov 27.

DOI:10.1029/2024EA003640
PMID:39620052
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11602534/
Abstract

Seismic imaging is one of the most powerful tools available for constraining the internal structure and composition of planetary bodies as well as enabling our understanding planetary evolution, geology, and distribution of natural resources. However, traditional seismic instrumentation can be heavy and voluminous, expensive, and/or difficult to rapidly deploy in large numbers. Distributed acoustic sensing (DAS) provides a promising new alternative given the ease of deployment, light weight and simplicity of fiber optic cables. However, the feasibility and best operational practices for using DAS for planetary exploration are not well-known. We examine the use of DAS with surface deployed fiber for planetary near-surface seismic exploration at two lunar geophysical analogue sites in San Francisco Volcanic Field. We compare DAS recordings to 3-component seismometer recordings and geophone shot recordings and determine empirical response functions for the DAS system with respect to the 3-component recordings. Shot sections of DAS and traditional seismic equipment compare well visually, with similar moveout of identifiable phases. DAS records first arrivals in good agreement with seismometers making them suitable for refraction work. Multichannel analysis of surface waves is performed on DAS records to estimate shallow shear velocities. The DAS has high spectral coherence with the horizontal components of ∼0.7 in the frequency band of the seismic shot energy. The empirical response functions are stable with amplitudes of ∼1.0-3.0 × 10 m per strain. Finally, the phase response is linear but not flat or zero. Our experiment demonstrates that there is potential for surface deployed DAS in planetary landscapes.

摘要

地震成像作为一种极为强大的工具,可用于确定行星体的内部结构与组成,还能助力我们理解行星演化、地质情况以及自然资源分布。然而,传统地震仪器可能笨重、体积庞大、价格昂贵,且/或难以大量快速部署。鉴于光纤电缆易于部署、重量轻且结构简单,分布式声学传感(DAS)提供了一种很有前景的新选择。不过,将DAS用于行星探测的可行性及最佳操作方法尚不为人们所熟知。我们在旧金山火山场的两个月球地球物理模拟地点,研究了利用地表部署光纤的DAS进行行星近地表地震探测的情况。我们将DAS记录与三分量地震仪记录以及检波器激发记录进行比较,并针对三分量记录确定DAS系统的经验响应函数。DAS和传统地震设备的激发剖面在视觉上比较吻合,可识别相位的时差类似。DAS记录的初至波与地震仪记录吻合良好,使其适用于折射工作。对DAS记录进行面波多道分析以估算浅层剪切波速度。在地震激发能量频段,DAS与水平分量的频谱相干性较高,约为0.7。经验响应函数稳定,应变幅度约为1.0 - 3.0×10米。最后,相位响应是线性的,但并非平坦或为零。我们的实验表明,在行星地貌中地表部署DAS具有潜力。

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本文引用的文献

1
Seismic arrival-time picking on distributed acoustic sensing data using semi-supervised learning.基于半监督学习的分布式声学传感数据地震波到时拾取
Nat Commun. 2023 Dec 11;14(1):8192. doi: 10.1038/s41467-023-43355-3.
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Earthquake focal mechanisms with distributed acoustic sensing.基于分布式声学传感的地震震源机制
Nat Commun. 2023 Jul 13;14(1):4181. doi: 10.1038/s41467-023-39639-3.
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Illuminating seafloor faults and ocean dynamics with dark fiber distributed acoustic sensing.利用暗光纤分布式声传感技术照亮海底断层和海洋动力。
Science. 2019 Nov 29;366(6469):1103-1107. doi: 10.1126/science.aay5881.
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Distributed Acoustic Sensing Using Dark Fiber for Near-Surface Characterization and Broadband Seismic Event Detection.利用暗光纤进行分布式声波传感以实现近地表特征描述和宽带地震事件检测
Sci Rep. 2019 Feb 4;9(1):1328. doi: 10.1038/s41598-018-36675-8.
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Dynamic strain determination using fibre-optic cables allows imaging of seismological and structural features.利用光纤电缆进行动态应变测定可以对地震和结构特征进行成像。
Nat Commun. 2018 Jul 3;9(1):2509. doi: 10.1038/s41467-018-04860-y.
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Distributed Acoustic Sensing for Seismic Monitoring of The Near Surface: A Traffic-Noise Interferometry Case Study.用于近地表地震监测的分布式声学传感:交通噪声干涉测量案例研究
Sci Rep. 2017 Sep 14;7(1):11620. doi: 10.1038/s41598-017-11986-4.