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in deep collaboration with the Functional Materials Technology, Inverse Materials Design, Light-Matter Interaction Theory, Next Generation Energy systems, Oxide Single Crystal, and III-V Compound
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on “Improving the thermo-optical properties of Ge single crystals for Infrared applications” The demand for infrared (IR) optical technologies is rapidly increasing across various sectors. At present, Germanium
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of individual ice crystals and grain boundaries. This postdoctoral project aims to leverage these developments to better constrain the origin, structure, and evolution of basal ice beneath the Greenland and
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the group of dr Jacek Herbrych (https://jacekherbrych.github.io ) within project NCN SONATA BIS 13 2023/50/E/ST3/00033 entitled “Properties of low-dimensional quantum systems with charge, spin, and orbital
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particles or single-crystal electrodes. Experimental experience in the preparation of particles using electrodeposition methods (e.g., pulsed electrodeposition). Experience in the use of electron microscopy
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scattering, neutron scattering, photoelectron spectroscopy, etc. * Experience with lab-standard sample characterization techniques and related equipment (transport measurements, single crystal diffraction
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biology through single-crystal neutron diffraction techniques. This position focuses on visualizing critical hydrogen atoms in carbohydrate-binding proteins and their complexes using neutron diffraction
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bulk crystals, through thin layers and membranes, down to single molecular layers and their heterostructures? The aim of this project is to address this challenge by investigating the nanomechanical
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electromechanical quantum chips are connected via superconducting cables at millikelvin temperatures. The vibrating membranes will be realized with a phononic crystal radiation shield, enabling ultrahigh mechanical
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communication skills, as well as oral presentation skills Preferences Experience in synthetic inorganic chemistry. Characterization of paramagnetic compounds. Familiar with single-crystal X-ray diffraction and