Anne Mangeney
Professor
Seismology
Institute of Physics of the Globe of Paris
France
Biography
I am interested in the physical processes at work in natural flows with complex rheology (landslides, avalanches, glaciers, etc.) on Earth and on other planets. My ambition is to advance both our understanding and the modeling of these processes. My work combines theoretical and numerical approaches as well as laboratory and field experiments. Recently I have focused on the interactions of these processes with the solid earth and the ocean by studying the seismic and water waves generated by landslides and glaciers. I enjoy working on the many exciting applications of this research in fields such as hazard assessment and the study of volcanic activity through gravitational flow monitoring, carried out in conjunction with volcano observatories.
Research Interest
LANDSLIDE GENERATED SEISMIC WAVES (LANDQUAKES) Estimating rockfall volumes from radiated seismic energy Measuring acoustic waves generated by experimental granular collapses PHYSICAL PROCESSES IN NATURAL GRANULAR FLOWS
Publications
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Lusso, C., Bouchut, F., Ern, A., and Mangeney, A., 2017. A free interface model for static/flowing dynamics in thin-layer flows of granular materials with yield: simple shear simulations and comparison to experiment, APPLIED SCIENCES, 7(4), 386
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Lusso, C., Ern, A., Bouchut, F., Mangeney, A., 2017. Explicit solutions to a free boundary model for the static/flowing transition in granular flows, DISCRETE CONTINUOUS DYNAMICAL SYSTEMS
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Sergeant, A., Yastrebov, V., Mangeney, A., Castelnau, O., Montagner, J. P., Stutzmann, E., 2017. Numerical modeling of iceberg capsize responsible for glacial earthquakes J. GEOPHYS. RES. Earth Surface
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Aı̈ssiouene, N., Bristeau, M.O., Godlewski, E., Mangeney, A., PareÌs, Sainte-Marie, J. 2017. Application of a combined finite element - finite volume method to a 2D non-hydrostatic shallow water problem. FINITE VOLUMES FOR COMPLEX APPLICATIONS 8 proceedings,
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Farin, M., Mangeney, A., De Rosny, J., Toussaint, R., and Trinh, P.T., 2017. Insights into the generated seismic signal and dynamics of granular flows on horizontal and sloping beds, J. GEOPHYS. RES. Earth Surface,
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80 - Fernandez-Nieto, E.D., Garres J., Mangeney, A., and Narbona-Reina, 2017. 2D granular flows with the mu(I) rheology and side walls friction: a well balanced multilayer discretization J. COMP. PHYS.
