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of molecules is motivated by their rich internal structure, combined with the existence of controllable long-range dipole-dipole interactions, long trap lifetimes and strong coupling to electric and microwave
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collegiality is at the heart of what we do. The Department’s research structure consists of five Research Groups: Algorithms and Complexity (ACiD) Artificial Intelligence and Human Systems (AIHS) Network
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regular arrays to probe novel quantum phenomena in strongly interacting quantum systems. The use of molecules is motivated by their rich internal structure, combined with the existence of controllable long
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-resolution, confocal and electron microscopy), genomics, proteomics, metabolomics, high-performance computing and field research. We promote research at the interface with other disciplines. The Dept
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working creatively with students and young people, have confidence to discuss sensitive topics including harm and structural violence, and knowledge of child safeguarding practice in the UK is an advantage
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regular arrays to probe novel quantum phenomena in strongly interacting quantum systems. The use of molecules is motivated by their rich internal structure, combined with the existence of controllable long
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. However, the carbamate PTM is unstable outside the cell, and its identification presents significant analytical challenges. Several stable carbamates have been identified in protein molecular structures
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migration, incarceration and the criminal justice system, democracy/populism, Artificial Intelligence, integral ecology, war/peace, or the structural response to poverty. (This is an indicative not
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when using the online application form, we prefer you send enquiries by email. Please send your name along with a brief description of the problem you’re experiencing to e.recruitment@durham.ac.uk