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scientific data from a variety of sources, reviewing and refining working hypotheses as appropriate. Additionally, you will collaborate in the preparation of scientific reports and journal articles and
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lab has developed the OrthoFinder comparative genomic methods. OrthoFinder has become widely-used in comparative genomics research, it powers many popular databases of online genomic information, and
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others, pseudospectra theory, and empirical data from DRAGNet and global demographic databases (COMPADRE, COMADRE, PADRINO). The project combines mathematical modelling, simulation, and empirical synthesis
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steps for antibiotic development. To achieve this exciting goal, you will apply novel single-molecule and super-resolution techniques, and data-analysis methods, while employing a multi-disciplinary
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(email: Laurence.brassart@eng.ox.ac.uk). For more information about working at the Department, see www.eng.ox.ac.uk/about/work-with-us/ Only online applications received before midday on the 7th January
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Fritzsche, conducting individual research, analysing detailed and complex qualitative and/or quantitative data from a variety of sources, and generating original ideas by building on existing concepts. You
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, including quantum field theory, condensed matter physics and/or quantum information theory. Applicants will be expected to have, or be close to completing, a PhD in theoretical or mathematical physics or a
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experimental design • Combining models and combining data / Realistic simulation of clinical trials • Developing LLMs to utilise ODEs and ProbML as tools, Code synthesis for causality
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. The supporting statement should explain how you meet the essential criteria for the post using clear examples. Please click here for information and advice on writing an effective supporting statement. Further
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• Constrained experimental design • Combining models and combining data / Realistic simulation of clinical trials • Developing LLMs to utilise ODEs and ProbML as tools, Code