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opportunity to work on the extremely timely “TWISST: Terahertz wave induced spin switching technology” project. TWISST aims to develop the scientific understanding needed to create a new generation of magnetic
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the working group focus is the analysis of nonlinear wave and dispersive equations. Our ideal candidate already has experience with methods of PDEs, in particular Harmonic Analysis, and is able to actively
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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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concepts targeting high-frequency gravitational waves and develops related technologies.In the NEST (Nano-membrane Experiment for Space-time Tremors) project, we aim to advance nanomechanical membrane
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friction. Coastal Engineering, 53(2), 149–165. https://doi.org/10.1016/j.coastaleng.2005.10.005 Dean, R. G., & Walton, T. L. (2010). Wave setup. In Y. C. Kim (Ed.), Handbook of Coastal and Ocean Engineering
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wave theory ᆞAtomistic-spin simulations ᆞMicromagnetic simulations Terms and Application: ᆞStart Date: As early as July 1, 2026. ᆞDuration: One year (initial), extendable for one additional year
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the working group focus is the analysis of nonlinear wave and dispersive equations. Our ideal candidate already has experience with methods of PDEs, in particular Harmonic Analysis, and is able to actively
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for gravitational-wave data analysis, including searches for a stochastic gravitational-wave background with LIGO and technology development for future interferometer generations 20%: Write and contribute to research
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dynamics at depth using viscoelastic and elastic models, wave propagation, and flexure modeling. Much of the research involves understanding what has been called the earthquake cycle: interseismic strain
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the composition at the acceleration sites so that they can be identified with potential sources such as supernova shock waves. Current research also considers the role of cosmic rays in the origin