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Terahertz instrumentation for radio astronomy. Our team of scientists, physicists, and engineers focuses on superconducting electronics, terahertz technologies, material science, low-temperature physics, thin
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electronics, terahertz technologies, material science, low-temperature physics, thin-film technology, and microwave engineering. This multidisciplinary approach allows us to create advanced instruments
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developing methods based on synchrotron and laboratory X-ray diffraction for real-time in situ studies of thin films and coatings. You will be a part of a large cross-organizational environment focused
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situ studies of thin films and coatings. You will be a part of a large cross-organizational environment focused on the use of X-rays and neutrons for the study of industrial materials and processes, and
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characterization. We have developed a novel thin-film lift-off process for AlGaN-materials based on electrochemical etching, which allows integration of III-nitride thin films with various photonic structures
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research in the field of Terahertz technology. GARD research activities include elements of low-temperature physics, superconducting electronics, material science, terahertz technology and thin-film