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the aim of identifying relevant topological invariants to characterize the underlying dynamics and guide the selection of appropriate reduced models. - Adapt and implement existing topological tools
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of the ERC NEMESIS Synergy project (see https://erc-nemesis.eu/ ). The aim of this project is to build an integrated computing chain based on "Discrete de Rham" methods, the main feature of which is to
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of PhD students and post-docs working on different aspects of seafloor spreading (magmatism, tectonics, hydrothermalism) on a range of time scales, with observational and modeling approaches
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dynamics simulations, to help advance theories describing the scaling behavior of polymers. This project will employ such generic, particle-based, models to simulate polymer dynamics in the search
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CNRS/IN2P3 and Université Toulouse III - Paul Sabatier. The L2IT Particle Physics team contributes to understanding the dynamics of the scalar sector of the Standard Model through studies of the Higgs
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ExperienceNone Additional Information Eligibility criteria The postdoc should have a PhD degree in evolutionary biology, with expertise in bioinformatics, statistics, programming and/or modeling. Previous
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significantly deformed by tides? We will address this question using an experimental model approach. The agent will be responsible for: - installing the metrology equipment (PIV and conductivity probe
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. Their tasks will include: 1. Creating an age model for the collected sequences and, based on the results, selecting the sequences to be analysed. 2. Collecting and performing the planned sedimentary geochemical
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-assembly of bioactive entities for the recognition and delivery of drugs (e.g. photosensitizers, nucleic acids) and application in photodynamic therapy (PDT) and RNA-based therapies (Chem. Comm., 2025, 61
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Presentation of results at conferences Writing scientific articles Contribution to technical supervision of personnel in training The position is based at the Institute of Cellular and Integrative Neuroscience