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for the rapidly developing quantum technologies. Quantum-optical measurements become especially intriguing in systems such as atomic ensembles or molecular processes whose quantum nature remains unclear. These open
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relentless arms race. While viruses evolve new infection strategies, archaea evolve new antiviral defence mechanisms. However, we still lack a clear picture of this process. This project will address
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This PhD project explores the intersection of quantum plasmonics and molecular photonics, aiming to measure quantum light emission from molecules confined within plasmonic optical cavities
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and spectroscopy, you will investigate how molecular structure and processing routes control material parameters. The project will provide training relevant for a career in soft matter physics and
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physical sciences, and interest in environmental applications. Useful recruitment links: For information relating to the research project please contact the lead Supervisor via: f.vollmer@exeter.ac.uk
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How does experience shape the brain? We aim to understand why distinct experiences result in adaptation through learning, whilst others can lead to unsurmountable stress, psychiatric and behavioural
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% efficient in this process largely due to proton leak pathways that occur, leading to energy lost as heat. In specialised brown adipose tissue, popularised as ‘good fat’, such heat production is specifically
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backgrounds to join our community. At the Department of Applied Physics, our pioneering research in physical sciences creates important industrial applications that hold great technological potential. Our
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Funding amount: Funding will cover tuition fees for UK students (at the Home rate), a stipend at the UKRI rate , and a consumables budget. This is a 3.5-year PhD studentship funded by the School
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future generations of research and development professionals; data specialists; technology experts; inventors; and scientists for industry and society. The Atomic Scale Physics group at the Department