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Field
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a team to undertake a PhD in the Optics and Photonics Research Group (OPG), supervised by Dr. Mitchell Kenney alongside collaborators within OPG and Life sciences. (https://www.nottingham.ac.uk
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also be provided. Overview High-purity quartz is a critical raw material for advanced industries such as semiconductors and optical fibres. The purification of quartz typically involves high-temperature
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investigate various stress parameters to reveal cryptic consequences of the selfish chromosome of Drosophila testacea, chosen for its newly-described genetic tools allowing individuals to be genotyped by eye
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hearing science, or a related discipline, and a keen interest in developmental research. Prior experience with experimental design, data analysis (preferably in R), eye-tracking, or developmental
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profile, a pioneering initiative to develop novel built environment models and stock datasets from new optical space technology that will help tackle the challenge of creating a zero-carbon future
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for black holes in our Galaxy that are in a close binary system with a normal star. Measuring the mass of these black holes informs on their formation mechanism, but traditional optical techniques are not
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multifunctional materials. By coupling field-driven orientation with compositional design, the project will reveal how directional control over framework domains influences charge transport, optical response, and
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lab, research is focused on mechanisms of neurodegeneration and neuroprotection driven by neuro-metabolism and neuroinflammation, particularly in the eye. The Tribble lab uses a bench-to-bedside
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. The rapidly growing field of levitated optomechanics [1] has the potential to overcome these limitations by using optical fields to trap and control mechanical systems in vacuum. Recent advances have succeeded
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actively tuning metamaterials, such as incorporating electro-chromic or thermo-responsive molecules, and you would push this work into completely new areas. You would build new nano-optical rigs to probe