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development and applications. Background The systems medicine research group at Örebro University (https://www.oru.se/english/research/research-groups/rg/?rdb=g326) is involved in multiple collaborative
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cutting edge photonics with cold atoms to create new quantum technology. By using inverse design to develop structures capable of guiding multiple wavelengths, you will fabricate a photonic platform that
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and document insights through high-quality publications. Collaborate closely with academic and industrial partners to ensure real-world applicability and alignment with evolving 6G visions. The position
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compiled into a single PDF-file containing: CV and publication list A cover letter explaining why you are interested in the position and how the research project aligns with your research background and
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are looking for a candidate with a PhD in epidemiology, biostatistics, data science, medical science, or a related field, with solid statistical skills and the ability to independently manage data from multiple
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optimizing the viscose process and evaluate new solvents, ensuring computational results align with experimental goals. The researcher will also examine the environmental sustainability of the processes with a
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inverse design to develop structures capable of guiding multiple wavelengths, you will fabricate a photonic platform that supports trapping and probing of cold Strontium atoms. Building on successful
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will involve various materials and electrical characterization methods (potentially including electrochemistry, multiple microscopy modalities, optical and IR spectroscopy, rheology) as well as surface
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aligned with the group's interests. Topics that are of particular interest include: Language model interpretability, particularly mechanistic interpretability methods or applications of interpretability in
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beam alignment algorithms Co-existence of terrestrial and non-terrestrial wireless networks Great emphasis will be placed on personal skills. Join us at KTH KTH shapes the future through education