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on simulating nanoalloy structures to create a database for materials characterization. The main tasks include running molecular dynamics and Monte Carlo simulations to model nanoalloys under various
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quantify the evolution of the thermal structure of the Aquitaine Basin's crust and mantle using the geological record. Geophysical data, the subsidence history of sedimentary basins, and thermal-mechanical
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magnetospheric physics, focusing on Mercury's ion dynamics. Its primary goal is to enhance our understanding of the role the planetary ions play within this environment by examining their composition, life cycle
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of structure, dynamics and function. The groups use approaches from cell biology and biochemistry in combination with structural biology. The MMSB hosts 11 different research groups, totalling more than 90
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role The successful candidate will pursue postdoctoral research in group actions, geometric structures, and smooth dynamics in the research group of Prof. K. Melnick, within the Department of Mathematics
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the microscopic dynamics of the quark–gluon plasma created in heavy-ion collisions through the study of energy correlators inside jets. Candidate profile: Applicants should hold a PhD in theoretical high-energy or
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and associated with biological processes such as the circadian rhythm. The aim of the project is to understand at a molecular level the impact of these modifications on the structure and dynamics
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industrial partners. - Construction of electrochemical cells incorporating specially designed magnetic field sources, including quantitative measurement of local magnetic fields. - Implementation of tools
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language models to whole genome sequencing data - Develop algorithms and neural network architectures for the prediction of structured outputs (i.e. trees, graphs) - Implement and develop methods
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the boundary layer and the turbines, but also at the center. This should shed some new light on the dissipative structures and extreme events possibly responsible for the large scale evolution of the flow