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-low-power, non-volatile, and scalable computing platforms. The research aims to develop CMOS interface circuits and system architectures that tightly integrate with spintronic devices for applications
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for space applications. The project aims to drastically reduce power consumption and data bandwidth while increasing processing speed and dynamic range compared to conventional image sensors. The technology
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investigations of charge state distributions, fragmentation behavior under collisional- and electron-based dissociation, and differentiation of peptide isoforms and PTMs using negative ion mode workflows. Research
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systematic investigations of charge state distributions, fragmentation behavior under collisional- and electron-based dissociation, and differentiation of peptide isoforms and PTMs using negative ion mode
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of multiple simulators and robotic systems. The modelling work demands the ability to analyse diverse types of biomedical data and to develop computational models that capture organ anatomy and behaviour
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. Your primary qualifications are: Hold a PhD degree in Biotechnology, Life sciences, or others areas relevant to this position. Proven ability to work in some of the following areas: bioinformatics, flow
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optical transmission systems, bio-photonics, acoustics, power electronics, robotics, and autonomous systems. Technology for people DTU develops technology for people. With our international elite research
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dynamics, or force-controlled robotics Experience integrating and using robotic sensors (e.g., vision, force/torque, proprioceptive sensors) Ability to work independently while collaborating effectively in
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hereafter. The duration of the position is 2 years. Your work tasks The position is offered in relation to the research group Power Electronics Packaging, Materials and Emerging Applications and the Postdoc