28 structures "https:" "https:" "https:" "https:" "https:" "https:" "Birmingham Newman University" positions at The University of Southampton
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network–Training & Research in Advanced Dispersion Engineered grating-waveguide Structures (TRADES)–and push the boundaries of what’s possible with nanofabrication technology. Nanofabrication covers ground
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with the investigation team Systematic/structured literature review Parameter collation and mapping to type of space mission, duration (other parameters) Essential Skills: Background in one of: biomedical engineering
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. They will be embedded in local public health structures (local authorities, HPTs) and have an in-depth understanding of public health across the local area. They will have experience of teaching/training in
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suitable for an individual who does not yet have a national training number and wishes to pursue a career in the cancer field. You will take part in a structured training programme of research leading
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diseases such as lung cancer, asthma, and COPD. Post 3 : Design of modified oligonucleotides to target IRES structures of oncogenic mRNAs, avoiding global translation inhibition and testing efficacy in
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on Smart Fibre-Optic High-Power Photonics (HiPPo). The HiPPo programme (https://www.hippo-laser.co.uk/ ) is focused on understanding how to control the properties of fibre lasers, to go beyond the “fixed
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structured training scheme. As a university we aim to create an environment where everyone can thrive and are proactive in fostering a culture of inclusion, respect and equality of opportunity. We believe
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, metallic and particulate contamination in optical silica Understanding how the glass structure, impurities and interfaces set optical loss Fabrication of waveguides and ring resonators from these glass
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excellent experimental skills. Knowledge and hands-on experience in active-doped silica-based fibre fabrication, spectroscopic characterisation of doped fibres, and the construction and testing of fibre
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Grant “Unwrapping topologically protected light on topologically structured surfaces”. Building on the University of Southampton’s long-established and internationally recognised strength in metasurface