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student town with a beautiful historic center, located about 10 km from the Mediterranean Sea. The PhD will be part of an advanced ERC project ('RegEvol', Thomas Lenormand), addressing novel ideas and
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student town with a beautiful historic center, located about 10 km from the Mediterranean Sea. The PhD will be part of an advanced ERC project ('RegEvol', Thomas Lenormand), addressing novel ideas and
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-et-fluides-… This work will be carried out as part of the European ERC 'CohPa' project, as part of a collaboration between the d'Alembert laboratory in Paris, the birthplace of the Basilisk software
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Inria, the French national research institute for the digital sciences | Villeneuve la Garenne, le de France | France | 3 months ago
production (solar, wind) defines new challenges in the management of energy production and transport systems, as well as in the functioning of electricity markets. Currently, these markets are operated
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goal of this thesis is to develop high performance design and analysis methods to allow for the very fast simulation and shape optimization of industrial complex stiffened structures. The first
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liquid environment. 1) Molecular Modeling - Study of interactions between MnO₂ and ionic liquids using Density Functional Theory (DFT) and Reactive Molecular Dynamics (ReaxFF). - Analysis of oxidation
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energies will be measured through threshold collision-induced dissociation (T-CID) experiments, with tandem MS/MS experiments used to ensure accuracy. Computational methods like Density Functional Theory
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energies will be measured through threshold collision-induced dissociation (T-CID) experiments, with tandem MS/MS experiments used to ensure accuracy. Computational methods like Density Functional Theory
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chemistry software (e.g., Gaussian, Dalton, TurboMole) is highly desirable. Background in Density Functional Theory (DFT) and Time-Dependent Density Functional Theory (TD-DFT) are desirable assets. Strong
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work within the GREMAN laboratory (UMR CNRS 7347), which has strong expertise in ferroelectric oxides (from their growth to their integration into devices, including their complete characterization), in