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developing switching circuits based on phase change materials (PCMs). The research will primarily consist of performing electromagnetic simulations of N-to-M switching circuits of increasing complexity
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and nano-robots (e.g., conformational switching, cargo encapsulation and release). - Quantitative analysis of assembly efficiency, mechanical stability, and functional performance in vitro and, where
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order to evaluate as early as possible the switching performance and the best compromises between component parameters, conduction and switching losses. The different architectures will be evaluated in
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to random bifurcations, in which the flow regime switches spontaneously from one type of behavior to another over a random time period. A paradigmatic example is the Von Karman flows, where large scale
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they can be targeted to improve senescence-related pathologies. Recent lab publications: -Margand C et al. Emerging role of mitochondrial calcium levels in cellular senescence and in switching cell fates
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to traverse challenging terrains, descend stairs, fall safely, or switch to passive motion when needed. Within this framework, the post-doctoral researcher will focus on the instrumentation of locomotion state
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into organelles as well as the antimicrobial potential of oTPs (Garrido et al. 2020), with a determination of the key residues involved in the evolutionary switch from one function to the other (Caspari et al. 2023
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scientists to correlate optical observables with atomic-scale domain configurations and switching mechanisms. • Maintain and optimize cryogenic optical instruments and participate in the fabrication of high
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physics of sliding ferroelectricity. The ultimate ambition is to develop a strategy to optically switch these domains, laying the groundwork for novel optoelectronic devices. Such a system could serve as a