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Field
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of ultrasound therapy and their control in real time. This team develops new methods for the control of ultrasonic cavitation, a phenomenon that enables the permeabilization of numerous biological membranes
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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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of atomristors. This project aims to develop methods for the controlled creation of defects smaller than 10 nm in order to manipulate the density of states of 2D materials. Advances in the fundamental
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in-depth rheological studies (shear and extensional viscosity, phase diagrams) to understand and control fiber formation mechanisms. • Characterizing the structural, mechanical, and surface properties
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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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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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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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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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-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