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Engineering of Additive Manufactured Metals—MicroAM’. The MicroAM project aims to develop (i) a laboratory-based X-ray microscope capable of mapping local residual stresses, (ii) a multi-scale AM process
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empathic person with a PhD degree in mechatronics engineering, MEMS, neurotechnologies, applied physics, nanotechnology, neural interfaces, biomedical engineering or similar. Advanced skills in electronics
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causing these variations in A and F stars. Using asteroseismology, we aim to detect and analyze near-core and surface magnetic fields. This involves comparing theoretical models with photometric
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analysis with X-ray and entron diffraction. Property characterisation using a physical property measurement system (PPMS) and a SQUID magnetometer (MPMS). Ab-initio DFT calculations for property predication
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collaborative research environment with strong interconnection between experimental and theoretical physics. We provide a large network of collaborators to develop ideas and new projects. Excellent experimental
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technical support structure. The institute maintains close collaboration with other departments and centers at SDU, as well as with industry partners, providing a vibrant environment where theoretical
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and theoretical physics. We provide a large network of collaborators to develop ideas and new projects. We also host state-of-the-art experimental research infrastructure which allows us to remain
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August 15th, 2025, or as per negotiation. We particularly seek candidates with strong theoretical research skills within corporate finance or asset pricing. Applicants should have completed their PhD in