posted on 2016-11-07, 15:00authored byS. Latour, A. Schubnel, S. Nielsen, R. Madariaga, S. Vinciguerra
We observe the nucleation phase of in-plane ruptures in the laboratory. We show that the nucleation is composed of two distinct phases, a quasi-static and an acceleration stage, followed by dynamic propagation. We propose an empirical model which describes the rupture length evolution: The quasi-static phase is described by an exponential growth while the acceleration phase is described by an inverse power law of time. The transition from quasi-static to accelerating rupture is related to the critical nucleation length, which scales inversely with normal stress in accordance with theoretical predictions, and to a critical surfacic power, which may be an intrinsic property of the interface. Finally, we discuss these results in the frame of previous studies and propose a scaling up to natural earthquake dimensions.
History
Citation
Geophysical Research Letters, 2013, 40 (19), pp. 5064-5069 (6)
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Geology