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Field
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of strongly-correlated materials, quantum magnets, and might hold the key of high-temperature superconductivity. Investigating its low-temperature many-body phases is extremely challenging using classical
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project, funded by the Defence Innovation Agency between IS2M and ICGM (Montpelier) on thermochemical heat storage. The main mission consists of the experimental study of thermochemical heat storage
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decarbonization of the industrial sector, technically efficient and cost-effective solutions integrating renewable energy sources, electrification of heat, and energy storage are deemed. We aim to design and
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, the consequent high-power densification as well as the urgent energy transition, imposes challenges for both materials nanoengineering and energy management towards efficiently waste heat dissipation. To make
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quantum magnetometry. The work will rely on state-of-the-art instrumentation, in particular a low-temperature (1.4 K) STM operating under ultra-high vacuum and magnetic fields up to 5 Tesla, along with
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to evaluate the basic magnetic properties of the materials, such as saturation magnetisation and Curie temperature. The materials will then be studied for their transient physical properties such as absorption
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high-temperature and pressure energy systems (e.g., supercritical CO2 [sCO2]), experimentation or modeling of supercritical fluids, thermomechanical design, and/or experimentation or modeling of additively
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temperature. It is also interested in more fundamental questions, for example in the sciences of the universe with hypervelocity impacts or high-pressure phase diagrams. On this latter topic, a working group
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required; familiarity with pyrolysis or other high-temperature treatments is considered an asset. Demonstrated ability to perform experimental work at lab scale, with experience in pilot-scale setups
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on exploring materials under non-ambient conditions—combining pressure, temperature, light irradiation—with advanced characterization techniques including XRD and complementary spectroscopic techniques. [1