2022
DOI: 10.1038/s41567-022-01662-4
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Transition from sub-Rayleigh anticrack to supershear crack propagation in snow avalanches

Abstract: Snow slab avalanches, characterized by a distinct, broad fracture line, are released following anticrack propagation in highly porous weak snow layers buried below cohesive slabs. The anticrack mechanism is driven by the volumetric collapse of the weak layer, which leads to the closure of crack faces and to the onset of frictional contact. Here, on the basis of snow fracture experiments, full-scale avalanche measurements and numerical simulations, we report the existence of a transition from sub-Rayleigh antic… Show more

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Cited by 22 publications
(50 citation statements)
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“…• The present paper focuses on earthquake dynamics, but the generality of the proposed one-dimensionless formulation may find applications in other geological settings where the size of the rupture exceeds the width of the surrounding bulk, such as landslides, glacier surge, and snow avalanches (Thøgersen, Gilbert, et al, 2019;Trottet et al, 2022).…”
Section: Discussionmentioning
confidence: 99%
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“…• The present paper focuses on earthquake dynamics, but the generality of the proposed one-dimensionless formulation may find applications in other geological settings where the size of the rupture exceeds the width of the surrounding bulk, such as landslides, glacier surge, and snow avalanches (Thøgersen, Gilbert, et al, 2019;Trottet et al, 2022).…”
Section: Discussionmentioning
confidence: 99%
“…Frictional rupture, the process by which a dynamic rupture propagates along a preexisting interface, has been proposed to control many geological processes, including earthquakes, landslides, glacier instabilities, and snow avalanches (e.g., Palmer and Rice (1973); Scholz (1998); Viesca and Rice (2012); Gabriel et al (2012); Scholz (2019); Thøgersen, Gilbert, et al (2019); ; Agliardi et al (2020); Trottet et al (2022)). In these systems, a rupture nucleates at a given location along an interface, accelerates to a maximum velocity, and then decelerates until final arrest.…”
Section: Introductionmentioning
confidence: 99%
“…After its first application to snow slab avalanches, Gaume et al (2019) analysed crack propagation and slab fracture patterns and reported crack speeds above 100 m/s on steep terrain. While the latter result was initially surprising, this motivated further analysis which later highlighted a transition in crack propagation regimes during the release process (Trottet et al, 2022). In fact, for short propagation distances, the failure in the weak layer occurs as a mixed-mode anticrack which propagates below the Rayleigh speed.…”
Section: Introductionmentioning
confidence: 99%
“…Such an avalanche releases due to the failure of a weak layer buried below a cohesive snow slab (Schweizer et al, 2016). Although a lot of progress has been done regarding the understanding of slab avalanche release processes, including the onset and dynamics of crack propagation (Gaume et al, 2013;Bobillier et al, 2021;Trottet et al, 2022), the evaluation of the size of avalanche release zones still remains a major issue. This difficulty impedes avalanche forecasting and hazard mapping procedures which rely on the avalanche release size as input.…”
Section: Introductionmentioning
confidence: 99%
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