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evolutionary). The project aims to approximate a Boltzmann distribution associated with an objective function that is difficult to optimize in order to solve complex optimization problems. This probabilistic
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- Collaborate with theoretical physicists specialized in optimal control methods - Set up experiments and evaluate the performance of control protocols - Conduct metrological studies of an atom gradiometer using
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algorithms for the robot and its pneumatic actuators, enabling actuation through a reduced number of control signals and fluidic supply channels. - Performance evaluation and optimization Experimental
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or ergonomics). - Work as part of a team - Conduct interviews with critical incident technique operators - Analyze these interviews - Design experiments with the aim of defining an optimal critical
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thermodynamic tools, specifically openCOSMO-RS, to predict VOC solubility and optimize DES formulations before experimental synthesis. Thermodynamics: Measure fundamental properties such as the vapor pressure of
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and novel biosensing strategies, with the aim of creating new diagnostic tools for liquid biopsy. You will be in charge of: - developing a new version of an optofluidic fiber optimized for plasmonic
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. You will work in a stimulating scientific environment, making use of state-of-the-art instrumentation. You will use both mass spectrometry technologies developed within the laboratory (notably laser
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researcher will test these materials to design, fabricate and optimize organic optoelectronic devices, focusing on the manufacturing aspects including miniaturisation of devices, encapsulation, flexibility and
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Description The researcher will conduct light microscopy experiments to study the formation of chromatin condensates and characterize their dynamics by FRAP as a function of the epigenetic modifications
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uptake, stress tolerance, and species interactions. A case in point is optimal partitioning theory (OPT), a dominant paradigm of plant resource allocation that describes the ability of plants to adjust