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Postdoctoral researcher (M/F). Modeling damage during earthquakes. Comparison with geophysical data.
(# ANR-22-CE01-0028) funded by the ANR. This two-year project (01/04/26 to 31/03/28) aims to explore the link between the dynamics of rupture on seismic faults and the structure of the damage zone
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Mohammed (Maurice Halbwachs Center, CNRS). This research project is structured around five axes: analysis of police and court records; sociology of the anti-drug police enforcement; analysis of the social
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developmental) and integrative neuroscience, the laboratory is structured around four main teams: - Cognition-Behavior-Context - Social Behaviors and Collective Dynamics - Physiological and Psychosocial Stress
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of patients undergoing orthognathic surgery, including cutting and repositioning of the maxillary and/or mandibular structures. The objective was to predict the aesthetic and functional consequences
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• Participation in micro- and nanofabrication processes using CRHEA's state-of-the-art cleanroom facilities (advanced lithography and etching techniques) • Optical and structural characterization of fabricated
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ptychography experiments in order to investigate, at different structural scales, the role of organic carbon in the transport and precipitation of metals under hydrothermal conditions. The researcher will
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the boundary layer and the turbines, but also at the center. This should shed some new light on the dissipative structures and extreme events possibly responsible for the large scale evolution of the flow
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the first objective is to extend these findings to silicon solar cells. Two emerging concepts will be investigated and compared: (1) Multi-resonant absorption induced by perfectly ordered structures
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functional properties of various material classes. The institute's expertise is centered on analytical strategies, modeling, physico-chemical approaches, and detailed studies of structure and reactivity. IPREM
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(based for instance on classical and/or ab initio molecular dynamics, combined with ONIOM-type QM/MM approaches) to gain deeper insight into the structure of the HFIP solvent, its coordination properties