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Field
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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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energy. Determining the intricate structure of the polycrystals is a laborious and restrictive task, and only a handful of measurement techniques are capable of fully imaging material microstructure. Laser
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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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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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Supervisors: Dr. Tom Goffrey (Physic), Prof. Tony Arber (Physics) Summary: The recent successes at the National Ignition Facility in achieving fusion gain from laser-driven implosions is major step
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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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technological advances that will increase the industrial use of laser cutting of carbon fibre and CFRP. Motivation Laser cutting of carbon fibres and consolidated Carbon Fibre Reinforced Polymer, CFRP, has been
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Supervisory Team: Johan Nilsson, Ben Mills Project Description “Smart” phased-array lasers based on computer-controlled coherently combined optical fibre amplifiers promise to revolutionise
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programme intended to develop generation after next technologies for applications in defence and security. The project will have two main themes. The first explores coherent beam combination to increase laser