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  • (-) WSL Authors = Gaume, Johan
  • (-) Journal ≠ Journal of Glaciology
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Transient wave activity in snow avalanches is controlled by entrainment and topography
Li, X., Sovilla, B., Gray, J. M. N. T., & Gaume, J. (2024). Transient wave activity in snow avalanches is controlled by entrainment and topography. Communications Earth & Environment, 5(1), 77 (11 pp.). https://doi.org/10.1038/s43247-023-01157-x
Modelling erosion, entrainment and deposition in cohesive granular flows: application to dense snow avalanches
Ligneau, C., Sovilla, B., & Gaume, J. (2024). Modelling erosion, entrainment and deposition in cohesive granular flows: application to dense snow avalanches. Cold Regions Science and Technology, 219, 104103 (14 pp.). https://doi.org/10.1016/j.coldregions.2023.104103
Microstructural controls on the plastic consolidation of porous brittle solids
Blatny, L., Löwe, H., & Gaume, J. (2023). Microstructural controls on the plastic consolidation of porous brittle solids. Acta Materialia, 250, 118861 (14 pp.). https://doi.org/10.1016/j.actamat.2023.118861
A depth‐averaged material point method for shallow landslides: applications to snow slab avalanche release
Guillet, L., Blatny, L., Trottet, B., Steffen, D., & Gaume, J. (2023). A depth‐averaged material point method for shallow landslides: applications to snow slab avalanche release. Journal of Geophysical Research F: Earth Surface, 128(8), e2023JF007092 (28 pp.). https://doi.org/10.1029/2023JF007092
A theoretical framework for dynamic anticrack and supershear propagation in snow slab avalanches
Siron, M., Trottet, B., & Gaume, J. (2023). A theoretical framework for dynamic anticrack and supershear propagation in snow slab avalanches. Journal of the Mechanics and Physics of Solids, 181, 105428 (18 pp.). https://doi.org/10.1016/j.jmps.2023.105428
Microstructural origin of propagating compaction patterns in porous media
Blatny, L., Berclaz, P., Guillard, F., Einav, I., & Gaume, J. (2022). Microstructural origin of propagating compaction patterns in porous media. Physical Review Letters, 128(22), 228002 (6 pp.). https://doi.org/10.1103/PhysRevLett.128.228002
Towards a predictive multi-phase model for alpine mass movements and process cascades
Cicoira, A., Blatny, L., Li, X., Trottet, B., & Gaume, J. (2022). Towards a predictive multi-phase model for alpine mass movements and process cascades. Engineering Geology, 310, 106866 (15 pp.). https://doi.org/10.1016/j.enggeo.2022.106866
Physics-based estimates of drag coefficients for the impact pressure calculation of dense snow avalanches
Kyburz, M. L., Sovilla, B., Gaume, J., & Ancey, C. (2022). Physics-based estimates of drag coefficients for the impact pressure calculation of dense snow avalanches. Engineering Structures, 254, 113478 (17 pp.). https://doi.org/10.1016/j.engstruct.2021.113478
The concept of the mobilized domain: how it can explain and predict the forces exerted by a cohesive granular avalanche on an obstacle
Kyburz, M. L., Sovilla, B., Gaume, J., & Ancey, C. (2022). The concept of the mobilized domain: how it can explain and predict the forces exerted by a cohesive granular avalanche on an obstacle. Granular Matter, 24(2), 45 (17 pp.). https://doi.org/10.1007/s10035-021-01196-1
Different erosion and entrainment mechanisms in snow avalanches
Li, X., Sovilla, B., Ligneau, C., Jiang, C., & Gaume, J. (2022). Different erosion and entrainment mechanisms in snow avalanches. Mechanics Research Communications, 124, 103914 (8 pp.). https://doi.org/10.1016/j.mechrescom.2022.103914
Post-publication careers: follow-up expeditions reveal avalanches at Dyatlov Pass
Puzrin, A. M., & Gaume, J. (2022). Post-publication careers: follow-up expeditions reveal avalanches at Dyatlov Pass. Communications Earth & Environment, 3(1), 63 (5 pp.). https://doi.org/10.1038/s43247-022-00393-x
Transition from sub-Rayleigh anticrack to supershear crack propagation in snow avalanches
Trottet, B., Simenhois, R., Bobillier, G., Bergfeld, B., van Herwijnen, A., Jiang, C., & Gaume, J. (2022). Transition from sub-Rayleigh anticrack to supershear crack propagation in snow avalanches. Nature Physics, 18, 1094-1098. https://doi.org/10.1038/s41567-022-01662-4
Detrainment and braking of snow avalanches interacting with forests
Védrine, L., Li, X., & Gaume, J. (2022). Detrainment and braking of snow avalanches interacting with forests. Natural Hazards and Earth System Sciences, 22(3), 1015-1028. https://doi.org/10.5194/nhess-22-1015-2022
Computational micromechanics of porous brittle solids
Blatny, L., Löwe, H., Wang, S., & Gaume, J. (2021). Computational micromechanics of porous brittle solids. Computers and Geotechnics, 140, 104284 (13 pp.). https://doi.org/10.1016/j.compgeo.2021.104284
Micro-mechanical insights into the dynamics of crack propagation in snow fracture experiments
Bobillier, G., Bergfeld, B., Dual, J., Gaume, J., van Herwijnen, A., & Schweizer, J. (2021). Micro-mechanical insights into the dynamics of crack propagation in snow fracture experiments. Scientific Reports, 11, 11711 (15 pp.). https://doi.org/10.1038/s41598-021-90910-3
Mechanisms of slab avalanche release and impact in the Dyatlov Pass incident in 1959
Gaume, J., & Puzrin, A. M. (2021). Mechanisms of slab avalanche release and impact in the Dyatlov Pass incident in 1959. Communications Earth & Environment, 2(1), 10 (11 pp.). https://doi.org/10.1038/s43247-020-00081-8
Three-dimensional and real-scale modeling of flow regimes in dense snow avalanches
Li, X., Sovilla, B., Jiang, C., & Gaume, J. (2021). Three-dimensional and real-scale modeling of flow regimes in dense snow avalanches. Landslides, 18, 3393-3406. https://doi.org/10.1007/s10346-021-01692-8
A glacier-ocean interaction model for tsunami genesis due to iceberg calving
Wolper, J., Gao, M., Lüthi, M. P., Heller, V., Vieli, A., Jiang, C., & Gaume, J. (2021). A glacier-ocean interaction model for tsunami genesis due to iceberg calving. Communications Earth & Environment, 2(1), 130 (10 pp.). https://doi.org/10.1038/s43247-021-00179-7
Micromechanical modeling of snow failure
Bobillier, G., Bergfeld, B., Capelli, A., Dual, J., Gaume, J., van Herwijnen, A., & Schweizer, J. (2020). Micromechanical modeling of snow failure. Cryosphere, 14(1), 39-49. https://doi.org/10.5194/tc-14-39-2020
Microscopic origin of nonlocal rheology in dense granular materials
Gaume, J., Chambon, G., & Naaim, M. (2020). Microscopic origin of nonlocal rheology in dense granular materials. Physical Review Letters, 125(18), 188001 (5 pp.). https://doi.org/10.1103/PhysRevLett.125.188001