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Field
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at the heart of the PhD work have already been funded. This project focuses on the structure and spectroscopy of cage-like carbon clusters to which hydrogen atoms can attach, thereby stabilizing the cage
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of proof assistant technology capable of understanding the dynamical linguistic structures found in current high-level mathematical texts. The project includes the study of interpretation mechanisms
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the development of a phase-field model to study the mechanisms of formation and growth of tetrataenite (Ni-Fe with the L1₀ ordered structure) during cooling. The objective is to incorporate the presence
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interacts sequentially with at least two structures of the host envelope: a conjugative pilus and the Tol system involved in membrane integrity and cell division. However, it is unclear how fd binds
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the scientific analysis working groups of SVOM and COLIBRI. CPPM, as the host laboratory of the KM3NeT France site, is responsible for the construction, opera-tion, and maintenance of the detector, and has
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activity (2, 3). This finding was unexpected because PCPE1 and PCPE2 are very similar in terms of sequences and structures. Objectives The main objectives of the PhD project will be (i) to elucidate
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Targeted Project Complexflows, which aims to promote and structure the interactions of mathematics with other sciences around current issues. The thesis will be co-directed by F. Radjaï (LMGC, ED I2S 166
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using laser diagnostics, including: Flow visualization via Particle Image Velocimetry (PIV) Flame structure imaging via OH Planar Laser-Induced Fluorescence (PLIF) Wall temperature measurements via Laser
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the striatum. These structures are fundamental to the balance between deliberate actions and more automatic behaviors. The objective is to understand how their activity underlies the ability to adapt
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and cosmology, with a strong technological focus on electronics, mechanics, instrumentation and computing, enabling the design and construction of cutting-edge detection systems, often called upon