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boundary conditions, preferable for the gastrointestinal tract. Ability to analyse large heterogeneous biomedical datasets and develop computational models of organ anatomy and behaviour Solid understanding
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community data on plants or invertebrates derived from observations, sensors, or eDNA, in combination with environmental drivers, land-use history, and management. Experience with large and heterogeneous
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formal qualification you must hold a PhD degree (or equivalent). You will be assessed against the responsibilities and qualifications stated above and the following general criteria: Experience and quality
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Researcher (R1) Established Researcher (R3) Application Deadline 20 Feb 2026 - 00:00 (UTC) Country Denmark Type of Contract Other Job Status Full-time Is the job funded through the EU Research Framework
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Job Description If you want to advance your career by working at the forefront of solid oxide electrolysis technology, this position offers a unique opportunity. You will apply and expand your
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an autonomous framework for setting up, executing, and optimizing complex electronic structure workflows, ranging from ground-state Density Functional Theory (DFT) to many-body perturbation theory methods such as
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engineering, or a closely related field by the time of enrolment. The successful candidate should demonstrate the following qualifications and competences: A solid academic foundation in data analysis, machine
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and manipulating the electronic structures of solid-state materials, to tackle the significant and diverse challenges facing society as we transition away from technologies reliant on fossil-fuels
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to strengthen the department’s competences within integrated optical phased array (OPA) for solid-state optical beam steering and application of OPA for LiDAR and biosensing and free-space optical communications
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Job Description Join our interdisciplinary team developing state-of-the-art 3D X-ray microscopy for life science applications. ‘Seeing is believing’, therefore at the DTU 3D imaging center we