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Master's degree in Polymer Science. Team 1, entitled "Catalyses and polymerization engineering", is headed by Frédéric Peruch. The team develops alternative strategies for the synthesis of "tailor-made
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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 reproduce
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, is one of the world's leading laboratories in the field of metrology, primary time-frequency references and interferometry with cold atoms. The laboratory develops state-of-the-art atomic clocks and
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individual control system, or the PDE can be used for analysis purposes [5]. The control designed at the PDE level is subsequently applied to the real system by discretizing it back to the original ODE system
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main production process, the Haber-Bosch process, is expensive and polluting due to the use of high temperatures and pressures. With the growing demand for NH3, the need for alternative technologies is
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systems to ensure the compatibility with the ultra-high vacuum conditions of the storage rings. Finally, the candidate will participate to the supervision of PhD, master and undergraduate students. -Data
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characterization throughout all main characterization facilities available at the research team and for the further optimization process. - Preparation of supported metal on depleted uranium oxide catalysts
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. The postdoc will work closely with the project's principal investigator, Sam van Gool, on one or more of the project's work packages. More information about the project is available at https
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modes (contrary to the basic model which include only N=1 mode) - Studying the role of collisionality for temperature inversion in the corona. This can be investigated by following two main strategies: 1
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for motivated master interns, PhD students, and postdocs in theoretical physics to work on the interactions between mechanics, biochemistry, and genetics in stem cell aggregates. The positions are fully funded by