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frameworks for distinguishing closely related quantum processes that arise in light-matter interactions, and to use these frameworks to extract fine spectral or temporal information from weak or structured
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that arise in light-matter interactions, and to use these frameworks to extract fine spectral or temporal information from weak or structured optical fields. The successful candidate will work on designing and
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-ray, neutron, and charged-particle flux; material selection for structural and functional reactor components; exploration of advanced and conventional cooling systems; energy extraction and conversion
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to the design, analysis, optimisation, control, and full-scale testing of advanced wind turbine systems. Depending on your expertise, you will play a key role in either blade design, structural dynamics
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frameworks for distinguishing closely related quantum processes that arise in light-matter interactions, and to use these frameworks to extract fine spectral or temporal information from weak or structured
-
, control, and full-scale testing of advanced wind turbine systems. Depending on your expertise, you will play a key role in either blade design, structural dynamics, electrical systems, or intelligent
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candidate will hold a PhD in Mathematics or a closely related discipline, with a strong background in edge decomposition of graphs or fractional structures in graphs. You will have the ability to solve
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, control, and full-scale testing of advanced wind turbine systems. Depending on your expertise, you will play a key role in either blade design, structural dynamics, electrical systems, or intelligent
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that arise in light-matter interactions, and to use these frameworks to extract fine spectral or temporal information from weak or structured optical fields. The successful candidate will work on designing and
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processes that arise in light–matter interactions, and to use these frameworks to extract fine spectral or temporal information from weak or structured optical fields. The successful candidate will work