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Strain-based forward modeling and inversion of seismic moment tensors using distributed acoustic sensing (DAS) observations

Jean Lecoulant, Yuanyuan Ma, Jan Dettmer, David W. Eaton

2023Frontiers in Earth Science10 citationsDOIOpen Access PDF

Abstract

This study used a waveform inversion of distributed acoustic sensing (DAS) data, acquired in two horizontal monitoring wells, to estimate the moment tensor (MT) of two induced microearthquakes. An analytical forward model was developed to simulate far-field tangential strain generated by an MT source in a homogeneous and anisotropic medium, averaged over the gauge length along a fiber of arbitrary orientation. To prepare the data for inversion, secondary scattered waves were removed from the field observations, using f - k filtering and time-windowing. The modeled and observed primary arrivals were aligned using a cut-and-paste approach. The MT parameters were inverted via a least-squares approach, and their uncertainties were determined through bootstrap analysis. Using simulated data with additive noise derived from the field data and the same fiber configuration as the monitoring wells, the inversion method adequately resolved the MT. Despite the assumption of Gaussian noise, which underlies the least-squares inversion approach, the method was robust in the presence of heavy-tailed noise observed in field data. When the inversion was applied to field data, independent inversion results using P-waves, S-waves, and both waves together yielded results that were consistent between the two events and for different wave types. The agreement of the inversion results for two events resulting from the same stress field illustrated the reliability of the method. The uncertainties of the MT parameters were small enough to make the inversion method useful for geophysical interpretation. The variance reduction obtained from the data predicted for the most probable MT was satisfying, even though the polarity of the P-waves was not always correctly reproduced.

Topics & Concepts

Inversion (geology)GeologyMoment tensorGaussianSynthetic dataAnisotropyInverse transform samplingGeophysicsAcousticsSeismologyAlgorithmGeodesyPhysicsMathematicsOpticsSurface waveDeformation (meteorology)TectonicsOceanographyQuantum mechanicsSeismic Waves and Analysisearthquake and tectonic studiesSeismic Imaging and Inversion Techniques
Strain-based forward modeling and inversion of seismic moment tensors using distributed acoustic sensing (DAS) observations | Litcius