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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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applied to reactor multi-physics (static and dynamic), radiation shielding and variance reduction, medical physics and charged particle transport, and algorithmic acceleration techniques. Researchers will
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View All Vacancies Science Location: UK Other Closing Date: Wednesday 03 July 2024 Reference: SCI2218X1 Supervisor: Prof Ioan Notingher (School of Physics and Astronomy) Positions available: 1
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Supervisor: Prof Ioan Notingher (School of Physics and Astronomy) Positions available: 1 Funding: fully-funded (stipend and PhD fees) Start date: September 2024 Duration: 3.5 years Subject Area
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fields of science and engineering like light weight design, engineering, medical applications, dampers, energy absorbers, thermal management, artificial intelligence and many more. The proposed topic
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Duration of study: Full time - 4 years fixed term (1y MRes + 3y PhD) Starting date: September 2024 Primary Supervisor: Prof. Ilias Tachtsidis, Department of Medical Physics and Biomedical
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applied to reactor multi-physics (static and dynamic), radiation shielding and variance reduction, medical physics and charged particle transport, and algorithmic acceleration techniques. Researchers will
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to investigate novel concepts for high power lasers operating in the visible and ultraviolet (UV) wavelength bands. Scaling laser power in the visible and ultraviolet bands remains as one of the most significant
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production, medical radiotherapy and radiography, space exploration and security screening. The detection of ionising radiation by the scintillation of light is one of the oldest and useful techniques
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, can provide protection and promote repair following demyelinating injury. However, these studies do not shed light on the role of Mas following a demyelinating injury, whether Mas may have a role in