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one of tha main contributor to the In-situ X-ray diffraction experiments performed for studying the formation of new silicides using both large volume presses such as multi-anvil and Paris-Edinburgh
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disciplines: - Shock physics, - Phase transition mechanisms, - Materials science. They must also be proficient in one or more of the following techniques: - X-ray diffraction, - Velocimetry, - Thermomechanical
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mechanical tests (hot tensile tests) ; - Knowledge of X-ray diffraction and the use of synchrotron beamlines, preferably at high energy ; - Fluency in oral and written English ; - Ability to process
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and data analysis related to structural studies to be carried out in situ and operando using diffraction techniques (X-rays, neutrons). The activities involve setting up diffraction experiments and
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, microprobe), a focused ion beam, a NanoSIMS, X-ray diffraction equipment, a picosecond acoustics setup, and various optical spectrometers (Raman, infrared, Brillouin). Where to apply Website https
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synthesised in situ using a state-of-the-art pulsed laser deposition system. Key characterisations include X-ray diffraction for structural properties and temperature-dependent magneto-optical properties
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Structural characterizations: X-ray and electron diffraction, electron microscopy, atomic force microscopy Study of electronic and magnetic properties: SQUID magnetometry, X-ray and angle-resolved
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instruments: NMR (300, 400, 500 MHz), mass spectrometry (LCMS, HRMS), and X-ray diffraction. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UPR2301-FRABOY-005/Candidater.aspx Requirements Research
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/research/assembly-dynamics-and-reactivity/dynamic… ), which studies the structure and dynamics of proteins via static and time-resolved X-ray diffraction and scattering, and neutron spectroscopy. The DYNAMOP