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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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weapons of war are nerve agents (Sarin gas), blister agents (Yperite), or suffocants (phosgene). Civilian or military personal protective equipment (PPE) developed until now generally offers passive
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, with far-reaching consequences for multi-messenger astrophysics and black hole astronomy. The HENBoS project is part of this rapidly developing context. The strategy is based on high-performance
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at the Imagine Institute in Paris, France. The position is available immediately. This post is intended for new university graduates who want to gain experience in laboratory work before pursuing Ph.D. studies
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interventions, creating environmentally sustainable devices, and developing simulators to reduce reliance on in vivo testing. The training network is interdisciplinary, integrating various fields such as
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response’ laboratory in the laboratory of Dr. JE Ricci, INSERM U1065, Nice. The project aims to investigate how metabolic alterations contribute to the development of multiple myeloma, and what metabolomic
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project is to develop the next generation of solar jet propagation models from the lower atmosphere to the inner heliosphere, and to allow a direct comparison with real in-situ data of the early solar wind
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for experiments below the MHz to detect the current fluctuations. We propose for the internship to use our newly developed ultrasensitive TMR-based (Tunnel Magnetoresistance) magnetic field sensor to detect
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stacking, both high performance and (very) high density can be achieved by this concept. The mission will be to explore, understand and develop the fundamental physics of device operation. This will require
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electron microscopy (SEM) in particular. • The second part focuses on analyzing the impact of AFP process parameters on residual stresses developing in flat and curved plates, the latter being