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at the University of Rouen Normandie is seeking a motivated PhD candidate for the CRONOSS project, which aims to revolutionize crystallization control by combining in silico simulations with experimental validation
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transformations after their formation (e.g., metamorphism, hydrothermal alteration), potentially biasing measurements (Tauxe et al. 2021). The single-crystal paleointensity technique, which involves analyzing
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, Microelectronics and Nanotechnology (UMR CNRS 8520 – https://www.iemn.fr/en/ ) is located in Villeneuve d'Ascq, near Lille, France. With a total staff of over 500, the institute has a broad research scope ranging
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of our research group is on putative materials that are of relevance to ocean worlds (e.g. clathrate hydrates, organic co-crystals, and frozen brines), whose many fundamental properties remain largely
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Metals are made of small crystals - i.e., atoms are arranged in a particular geometric arrangement, which are typically in the range of a few 10s of microns (0.01 mm). The arrangement
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of liquid crystal droplets doped with photoswitchable molecules. Upon light irradiation, these dopants induce changes in the internal organization of the liquid crystals, particularly in the helical pitch and
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candidate will engage in research and teaching activities focused on green functional materials processing. This research aims to clarify the science behind the crystal growth process of green functional
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superconductivity, magnetic-impurity electron spin resonance, quantum control, time crystals, ergodic spin phases, quantum chaos, and quantum thermodynamics. For more information, visit our web: https