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-partner consortium to deliver a scalable RAFM steel for the tritium mock-up within the UK Fusion Technology development.
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upper-second-class degree in an appropriate discipline: materials science and engineering, nuclear/chemical/mechanical/aerospace engineering, physics, plasma-physics, condensed-matter physics. No prior
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Funding: £26,000 per annum (TAX free stipend) and tuition fee for 3.5 years Supervisors: Professor Stefan Dimov (Mechanical Engineering, UoB) and Dr Sundar Marimuthu (MTC) Eligibility: Funding
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single atom metallic wires for use in electronics. Resulting wires are intended for applications in energy and electronics, and thus contributing to enhanced battery performance and engineering net-zero
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technology and has an ambitious target to develop commercially viable fusion energy. The materials used to construct future reactors are exposed to extreme temperatures, plasma erosion and intense neutron
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losses are tolerated and compensated by amplifiers, in the world of Quantum Technology, every photon is precious. This project will create new ultra-low-loss optical components, reducing losses and
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have the following qualities: A good first degree in Physics or in a related area, completed or close to completion. Knack for experimental physics and engineering with some hands-on expertise in optics