103 algorithm-development-"Multiple"-"Prof" "NTNU Norwegian University of Science and Technology" PhD positions in Denmark
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. Qualifications The successful candidate holds a Master of Science in Engineering Science, preferably focusing on Innovation and Product Development, with excellent CAD skills and can collaborate in cross
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generally. The expectation is that the PhD project can extend on and further develop these theoretical debates by applying them to extreme wealth. The central question for WP2 is thus: What role should we
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research project focused on the development and implementation of innovative stem cell-based? Do you have a keen interest in health economics research, new medical technologies, and interdisciplinary
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candidate, who will contribute to the development and implementation of the theory, and to applications in secure compilation. Further details on the planned research are summarized in the technical part of
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. Research Objectives: To develop and validate consistent sampling, subsampling and sample pretreatment procedures. To develop and validate analytical workflows. The successful candidate will implement and
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Job Description Are you passionate about designing ultra-low-power electronics for neural and wearable systems? Do you want to develop custom CMOS circuits that serve as the foundation
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of the biggest challenges is the development of efficient, scalable, and low-noise control electronics that operate at cryogenic temperatures. This PhD project addresses this challenge by designing CMOS-based
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develop experimental research performing magneto-optical spectroscopy combined with electronic transport to investigate light-matter interactions in 2D materials. Our goal is to access and control new
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multidisciplinary research initiative focused on developing intelligent assistive technologies driven by brain-inspired computing. The broader goal of the project is to enable seamless interaction between humans and
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student to work on the development of new theoretical frameworks for describing light–matter interactions in advanced nanostructures probed by polaritons generated through inelastic electron tunneling