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The project is related to the development of a powerful microwave source, able to operate over an extremely wide frequency range (kHz to 10s of GHz). Preliminary work at Loughborough University has
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for publication, and present their results at research conferences. Their work may involve superconducting microwave circuit design and simulation, theatrical analysis of classical and quantum circuits, development
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system. The role will prepare the advanced use of observations from the Copernicus Imaging Microwave Radiometer (CIMR), planned to be launched by the European Space Agency (ESA) in 2029. CIMR will provide
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of such magnets, both uniform and propagating spin-wave modes. The researcher on this post will perform cutting edge microwave measurements with local experts and analyse the obtained data to interpret underlying
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Development team and to help PDRAs and PhD students in the group to develop ultra-sensitive superconducting quantum devices operating in cryogenic environment using multiple high-end microwave/millimetre/sub
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to the key infrastructural challenges from the construction industry both in the UK and overseas in a project entitled ‘Digital Industrial-Scale Microwave system for energy-efficient and low-carbon precast
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transitions that can be probed with optical and microwave techniques [1,2], and thanks to a spatial extension on the scale of the atomic lattice, they can provide an exquisite probe of their local environment
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, underpinning future studies of gas-phase reaction processes within the Earth’s upper atmosphere. The THz band of the electromagnetic spectrum lies between the infrared and microwave regions. It offers
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interaction, quantum information processing and quantum sensing. The focal point of this research project will be the integration of Rydberg atoms with optical and microwave cavities, enabling quantum state
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peptide hormones targeting class B GPCRs using state-of-the-art microwave-assisted solid-phase peptide synthesis (SPPS) and chemoselective labelling strategies. 2. Conduct a systematic structure-activity