A seismic ambient noise data classification method based on waveform and frequency-wavenumber analysis: Application to reliable geological interpretation adjacent to Well Songke-2, Northeast China

GEOPHYSICS Pub Date : 2024-04-08 DOI:10.1190/geo2023-0340.1
Zhong-Yuan Jin, Zhan-Wu Lu, Wei Fu, He-Sheng Hou
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Abstract

Passive seismic interferometry techniques enable the retrieval of virtual shot gathers at receiver locations. However, it is difficult to distinguish body waves from surface waves in seismic ambient noise data, which leads to failed dispersion measurements, artificial deep reflections, and misleading geological interpretations. We propose a new method that employs the waveforms and their corresponding F-K spectra to identify body waves and surface waves. The proposed technique functions as a data classification procedure before wavefield retrieval and subsequent imaging. A field data example was conducted to test the feasibility of this technique. The field data results demonstrate that the proposed technique can reconstruct satisfactory high signal-to-noise ratio wavefields for reliable imaging and interpretation purposes. The method can also serve as a validation tool for identifying surface-wave-related artificial events in the obtained virtual source reflection image. The marker boundaries of the Songliao Basin in Northeast China are interpreted in the obtained profile and are in agreement with the well logging data. In addition, two normal faults are detected, which corresponds to the extensional rift environment during the early Cretaceous.
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基于波形和频率-波数分析的地震环境噪声数据分类方法:应用于中国东北松科-2井附近的可靠地质解释
被动地震干涉测量技术可在接收器位置检索虚拟地震波集。然而,在地震环境噪声数据中很难区分体波和面波,从而导致频散测量失败、人为深反射和误导地质解释。我们提出了一种新方法,利用波形及其相应的 F-K 频谱来识别体波和面波。在进行波场检索和后续成像之前,该技术可作为数据分类程序。为测试该技术的可行性,进行了实地数据示例。野外数据结果表明,建议的技术可以重建令人满意的高信噪比波场,从而实现可靠的成像和解释目的。该方法还可作为一种验证工具,用于在获得的虚拟源反射图像中识别与面波有关的人工事件。所获得的剖面解释了中国东北松辽盆地的标记边界,并与测井数据相吻合。此外,还发现了两条正断层,这与早白垩世的延伸裂谷环境相吻合。
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