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molecules arranged in 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
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in the supervision of graduate students within the group as well as contributing to the undergraduate teaching within the Department. The aim is to explore the use of reconfigurable arrays of trapped
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targets for carbon dioxide sensing are mainly unknown. We have developed technology to identify carbon dioxide-binding proteins systematically. We propose investigating a newly identified carbon dioxide
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employ a broad range of experimental approaches, spanning plant molecular biology and high-throughput sequencing technologies. The successful applicant will be expected to lead independent research aligned
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quantum systems. The use 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
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, into accessible and practical resources, and will use these, alongside their scoping activities to support bid development activities across the Centre. The successful applicant will be expected to be proficient in