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), small-angle scattering (LOKI) and diffraction (DREAM). The PhD student will be employed at DTU but will research the learning of students from both DTU and UCPH. Likewise, the PhD student will be working
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-ray fluorescence microscopy, x-ray absorption spectroscopy, and/or x-ray diffraction Strong record of accomplishment in cultural heritage research Interest and ability to work in a collaborative
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techniques, including atomic imaging of surfaces and bulk, nano-probe diffraction (4D-STEM), high-energy-resolution, and valence-level energy-loss spectroscopy, cryogenic microscopy, Lorentz microscopy and
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measurements at cryogenic temperatures Structural and microstructural characterization using diffraction and microscopy techniques Use of advanced research infrastructure, including synchrotron and neutron
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Science Beamline (P61A/WINE), the lmaging Beamline (P05/IBL), and the Nanofocus Endstation of Micro? and Nanofocus X-ray Scattering Beamline (P03/MINAXS), along with supporting laboratories (https
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fabrication. Receive individual trainings in state-of-the-art methodology, comprising pulsed laser deposition (PLD), atomic force microscopy (AFM), advanced X-ray diffraction (XRD), and transport measurements
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phonon states in a variety of engineered quantum systems. https://www.oist.jp/research/research-units/qmsu [Work content and job description] -Basic evaluation of substances and materials, including X-ray
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diffraction, and scanning electron microscopy, in the aim of the project “C2+toNH3 - Síntese eletroquímica sustentável de amoníaco via desidrogenação não oxidativa de biometano a etileno utilizando membranas
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deposition new types of ultra-thin magnetic films. The growth will be performed either by PLD or off-axis sputtering. structural characterizations including X-ray diffraction, reciprocal space mapping, AFM
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harmful microorganisms. You will actively work with the characterization of various materials using environmental electron microscopy, X-ray diffraction, AFM, and various spectroscopic methods such as NMR