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Field
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of neural circuits essential for adaptation. The successful candidate will explore the dynamics of neural populations in key brain regions for decision-making and behavioral control: the frontal cortex and
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PhD on 2D quantum photonics : towards neuromorphic applications with 2D ferroelectrics materials M/F
-of-plane ferroelectric domains. The goal of this PhD is to optically detect, track, and ultimately control the ferroelectric state in such materials. Key objectives include imaging ferroelectric domains in a
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for clarithromycin-induced resistance, which is the central pillar of multidrug therapy to control M. abscessus infections. Using wild-type (WT) and clarithromycin-resistant planktonic strains, we demonstrated
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of the principles and use of specific equipment in the field: incubators, spectrophotometers, thermocyclers, plate washers, microscopes, HPLC, SPR, ITC, etc. Using IT tools for data recording and equipment control
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CARNOT project, GALOPER. Galoper is a joint project between GPM Rouen and LCS Caen aiming at building up a complete picture of the mechanisms controlling the Gallium oxide behavior within the porous MFI
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-chip (OoC) technology offer precise control over critical parameters such as fluid dynamics and mechanical stimuli that closely mimic in vivo conditions. This project aims to develop a vascularized liver
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led by Stefania Castagnetti (Mitosis and Spindle Control team), in collaboration with Evelyn Houliston (Developmental Mechanisms of Cnidarians team). Both teams are based at the Laboratoire de Biologie
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emerged as a prominent mechanism enabling tight spatiotemporal control of protein production. RNA localization is particularly important in neuronal cells, which extend long axonal and dendritic branches
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the friction processes along shear faults that appear to control ice shelf movements on a larger scale. At small scales, the number of available observations remains too low for a robust study. A new generation
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controlled via structural phase transitions or external fields. The successful candidate will develop and apply a range of theoretical and computational methods based on first-principles electronic structure