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objective is to improve knowledge of aeronautical sealing. Overlapping piston ring seals are used in numerous aeronautical applications, both civil and military. Their primary function is to ensure
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analysis and collaborative exchanges with external partners in microbial ecology will ensure the integration of complementary expertise. The project is structured around four interdependent objectives. 1
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of this work is to develop the collaborative quantum computing research network within the university and its European alliance, EUTOPIA. Objectives: The goal of this PhD will be to adapt quantum systems to real
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are ill-suited to decorticate the differentiation program of subpopulations of cells. To circumvent this limitation, we have recently developed a sequential version of RNA FISH to detect RNA genes in single
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additional modification. This phenomenon gives rise to out-of-plane ferroelectric domains. The goal of this postdoctoral position is to optically detect, track, and ultimately control the ferroelectric state
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Expected skills: - Computational fluid dynamics, computational analysis, object-oriented programming - Language skills - Writing quality in English, ability to formulate and lead a scientific project
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investigator and will participate in laboratory experiments, data analysis, field work, and work as part of a project team that includes doctoral students and technical staff. The main objectives
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adult brains. These cells reside in tightly controlled microenvironments called “niches.” Objectives of the PhD project: The gestation and maternity periods in mammals open a window of important brain
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of Fundamental Electronics (IEF). In 2018, the teams moved into a building located at the heart of the Paris-Saclay Campus. The objective of this thesis is to study the mechanisms of optomechanical coupling in
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or when the fibre is deposited on the collector) or post-electrospinning. To achieve the main objective, several intermediate steps will be carried out. i) Formulations for electrospinning will be studied