Magnitude Clustering During Stick‐Slip Dynamics on Laboratory Faults

Magnitude Clustering During Stick‐Slip Dynamics on Laboratory Faults

Abstract We present an analysis of magnitude clustering of microfractures inferred from acoustic emissions (AEs) during stick‐slip (SS) dynamics of faulted Westerly granite samples in frictional sliding experiments, with and without fluids, under triaxial loading with constant displacement rate. We...

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Bibliographic Details
Main Authors: Omid Khajehdehi, Thomas H. W. Goebel, Georg Dresen, Jörn Davidsen
Format: Article
Language:English
Published: Wiley 2024-10-01
Series:Geophysical Research Letters
Subjects:
magnitude clustering
stick‐slip
acoustic emission
triggering
laboratory fault
stress relaxation
Online Access:https://doi.org/10.1029/2024GL109865
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Summary:Abstract We present an analysis of magnitude clustering of microfractures inferred from acoustic emissions (AEs) during stick‐slip (SS) dynamics of faulted Westerly granite samples in frictional sliding experiments, with and without fluids, under triaxial loading with constant displacement rate. We investigate magnitude clustering in time across periods during, preceding and after macroscopic slip events on laboratory faults. Our findings reveal that magnitude clustering exists such that subsequent AEs tend to have more similar magnitudes than expected. Yet, this clustering only exists during macroscopic slip events and is strongest during major slip events in fluid‐saturated and dry samples. We demonstrate that robust magnitude clustering arises from variations in frequency‐magnitude distributions of AE events during macroscopic slip events. These temporal variations indicate a prevalence of larger AE events right after (0.3–3 s) the SS onset. Hence, magnitude clustering is a consequence of non‐stationarities.
ISSN:0094-8276
1944-8007

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