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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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cameras to characterize flow and wave parameters. - Numerical modeling of laboratory experiments. This work is part of and funded by the ANR Slide2Wave program, coordinated by Philippe Gondret (FAST
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wave enantioselective electron paramagnetic resonance (TWEEPR). The successful candidate will contribute to the development of novel GHz experimental techniques within the Magneto-optics team
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) to reconstruct the sea surface height signal associated with different dynamic features: internal tide waves and mesoscale dynamics. The project is part of the Adopt A Crossover consortium, with the lead
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ExperienceNone Additional Information Eligibility criteria Knowledge in electromagnetism Design based on full-wave software expertise Skills in clean-room fabrication techniques Website for additional job details
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(or traveling) waves - Functional minimization - Numerical discretization methods for PDEs - Numerical simulations of PDEs The application should include: - A detailed CV describing the candidate's academic and
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of wave propagation in convex domains with boundary. Website for additional job details https://emploi.cnrs.fr/Offres/CDD/UMR7598-DANIVA-003/Default.aspx Work Location(s) Number of offers
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"Phase-space-inspired numerical methods for high-frequency wave scattering: from semiclassical analysis through numerical analysis to implementation". The design of fast and reliable algorithms
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in coincidence with blazards and gravitational wave sources). The recruited candidate will then work closely with this team, and within the APC "High Energy Astrophysics" theme group (Integral, SVOM
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) - Manipulate magneto-optical cryostats, pulsed and continuous-wave lasers, ultrafast electro-optical modulation systems, as well as detectors and electronic cards allowing the analysis of multi-photon