Time-Varying Moment-Tensor Analysis with Application to Buried Chemical Explosions

IF 2.6 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Seismological Research Letters Pub Date : 2023-09-27 DOI:10.1785/0220230139
Jonas A. Kintner, Kenneth Michael Cleveland, James Eric Pippin, Ryan Thomas Modrak, Brent Delbridge
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Abstract

Abstract The Source Physics Experiment (SPE) Phase I consisted of a series of over-buried, horizontally colocated chemical explosions at the Nevada National Security Site. Seismic waveforms from these explosions recorded at near-source accelerometers, local geophone arrays, and regional seismic stations provided a rich suite of observations suitable for resolving fine source details. To investigate the time-varying source history of the explosions, we used the frequency-domain moment-tensor inversion method described in Yang et al. (2018) with added regularization and reconstruction to suppress the nonuniqueness evident in unconstrained inversion results. The inverted moment-rate spectra are accurate within the response band of the local geophones and, in all cases, display predominately isotropic characteristics. For SPE-4Prime, SPE-5, and SPE-6, we resolve predominately isotropic moment release followed by double couple and compensated linear vector dipole (CLVD) release later in the time-varying source history. We interpret these results both in terms of absolute depth and scaled depth of burial. The apparent non-isotropic release from SPE-4Prime and SPE-5 may simply reflect increased resolving power related to improved Earth model accuracy at greater absolute depths, whereas the non-isotropic release from SPE-6 likely reflects the larger damage associated with an event at a shallower scaled depth. These results provide insight into the time-varying source characteristics of shallow explosions and motivation to study shear-wave generation by inverting for fracture, spallation, induced slip, and other temporally delayed source processes through time-varying methods.
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时变矩张量分析及其在埋藏化学爆炸中的应用
源物理实验(SPE)第一阶段在美国内华达州国家安全试验场进行了一系列水平埋置的化学爆炸实验。近源加速度计、当地检波器阵列和区域地震台站记录的这些爆炸的地震波形提供了一套丰富的观测结果,适合于解决精细的震源细节。为了研究爆炸的时变源历史,我们使用了Yang等人(2018)描述的频域矩张量反演方法,并添加了正则化和重构,以抑制无约束反演结果中明显的非唯一性。反转矩率谱在局部检波器的响应带内是准确的,并且在所有情况下都显示出主要的各向同性特征。对于SPE-4Prime、SPE-5和SPE-6,我们主要解决了各向同性矩释放,其次是双偶和补偿线性矢量偶极子(CLVD)释放。我们用绝对深度和按比例埋深来解释这些结果。SPE-4Prime和SPE-5的表观非各向同性释放可能仅仅反映了在更大的绝对深度上与提高地球模式精度相关的分辨率提高,而SPE-6的非各向同性释放可能反映了在较浅的尺度深度上与事件相关的更大的损害。这些结果为浅层爆炸的时变震源特征提供了深入的见解,并为通过时变方法反演破裂、碎裂、诱发滑移和其他时间延迟震源过程来研究横波的产生提供了动力。
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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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