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A major challenge for defence & security laser systems is managing the heat generated and differential thermal expansion of the different components in the system. A compounding challenge is the
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This funded project is open to home and overseas students. The start date is September 2024. Application deadline: 30/06/2024 Research theme: Laser physics with particle accelerator applications To
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ultrasonics is one of these techniques and it does this by linking the elasticity of individual crystals and measured ultrasound wave speeds. However due to this being an ill-defined problem, a computationally
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of measurement techniques are capable of fully imaging material microstructure. Laser ultrasonics is one of these techniques and it does this by linking the elasticity of individual crystals and
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to increasing the sustainability of coil coatings new methods of crosslinking that have significantly lower carbon footprints are being explored. One such method is to use UV or electron beam radiation (radcure
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Supervisory Team: Prof Johan Nilsson, Dr William Kerridge-Johns Project description: This project, focussing on high-power laser architectures, will contribute to a major Ministry of Defence (MoD
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centre, there is an almost systematic recurrence of the tumour. Several hypotheses can explain this phenomenon: the first is that the effectiveness of radiation depends on cellular metabolism; the second
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when recrystallised. Radiation damage and transmutation induced embrittlement are major design constraints and may necessitate frequent replacement of irradiated materials, which limits the commercial
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of this methodology to systems where the unpaired electrons are generated by exposure to light has increased significantly. Many chemical and biochemical reactions are initiated by light and EPR active radical
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forward for fusion research. For UK based researchers the next step is to work towards a direct-driven laser fusion facility. Such a step requires predictive models for laser system and fuel pellet design