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Title: Pulse-like and crack-like ruptures in experiments mimicking crustal earthquakes. Author: Lu X, Lapusta N, Rosakis AJ. Journal: Proc Natl Acad Sci U S A; 2007 Nov 27; 104(48):18931-6. PubMed ID: 18025479. Abstract: Theoretical studies have shown that the issue of rupture modes has important implications for fault constitutive laws, stress conditions on faults, energy partition and heat generation during earthquakes, scaling laws, and spatiotemporal complexity of fault slip. Early theoretical models treated earthquakes as crack-like ruptures, but seismic inversions indicate that earthquake ruptures may propagate in a self-healing pulse-like mode. A number of explanations for the existence of slip pulses have been proposed and continue to be vigorously debated. This study presents experimental observations of spontaneous pulse-like ruptures in a homogeneous linear-elastic setting that mimics crustal earthquakes; reveals how different rupture modes are selected based on the level of fault prestress; demonstrates that both rupture modes can transition to supershear speeds; and advocates, based on comparison with theoretical studies, the importance of velocity-weakening friction for earthquake dynamics.[Abstract] [Full Text] [Related] [New Search]