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high spatial resolution (dx = 2 km for the ocean, dx = 6 km for the atmosphere and the waves) that will cover the Mozambique Channel and will be forced by lateral boundary conditions generated by basin
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the benefits of HOFI channels for laser wakefield acceleration (LWFA). Your mission will involve applying multi-physics approaches to address both the long time scales required for channel formation and the
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of tsunamis generated by granular flows and collapses in a channel. - Setting up experiments involving tsunamis generated by granular flow/collapse in a channel. - Analyzing images obtained with high-frequency
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. Moreover, the postdoc will developp simulations and analysis of a channel within the exclusive, tagged and diffractive working group of the ePIC collaboration. The post-doctoral fellow will be in charge of
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channels. In a second, more exploratory stage, the candidate will investigate extensions to n-n-c systems, including the impact of three-body forces derived from ab initio calculations. This will enable a
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of dislocation stress fields (in collaboration with CEA Saclay). - Program the diffraction procedures to generate images comparable to Electron Channeling Contrast Imaging (ECCI) obtained using a Scanning Electron
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investigated. The results will be compared to those obtained from water channel experiments and numerical simulations carried out by other participants in this project. This work is part of a collaboration