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The Rantalainen group is focused on application of machine learning and AI for development and validation of predictive models for cancer precision medicine, with a particular focus computational pathology. Our
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. A principal focus of our research is the development of technology components for 6G wireless networks. Specific topics include the design and optimization of distributed and massive MIMO for high
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advancing optical tweezers techniques and developing novel nanoprobe-based sensing methods at the single-particle level. About us The project centers on the development of single-particle approaches
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., Nature Cell Biology, 2018). The Teixeira lab investigates the roles of spatial organization in biological processes and develops DNA nanotechnology-based tools to map and manipulate membrane protein
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at SciLifeLab An opportunity to develop an internationally competitive research profile and networks as well as guidance for future career development Guidance on relocating and settling in at KTH and in Sweden
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data from these experiments and report in scientific journals. The research questions include development of silvicultural methods, selection of tree species and operational implementation of adaptations
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About the position The successful candidate will work on developing strategies to enhance the resilience of aquaculture species (e.g., salmonids, shrimps) by integrating genomics, epigenomics
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interview. The position will be offered to the person who, after an overall qualitative assessment, is considered to be best placed to carry out and develop the tasks in question and to contribute
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of the viruses, which cause virus yellows. You will also develop molecular tools to facilitate the identification of resistant plants. The final aim is sustainable cultivation of sugar beet in Sweden using
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theories coupled to dynamical fermion matter using two-dimensional tensor network methods. This work builds on our ongoing, long-term research program centered on discrete gauge theories—an area that has