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new sustainable femtosecond laser nanomanufacturing process to overcome the challenges of atomic sale precision, feature size and defects rates for quantum dots. In this project, molecular dynamics
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. This collaboration between Cranfield University and Magdrive will study plume effects of Magdrive's dynamic pulsed plasma thruster on relevant targets. Simulation of plasma expansion and condensation in the space
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£20,780 for 2025/26). Direct energy deposition with a laser beam (DED-LB) additive manufacturing has generated substantial interest in diverse industrial applications due to its potential for fabricating
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Cranfield University and Magdrive will study plume effects of Magdrive's dynamic pulsed plasma thruster on relevant targets. Simulation of plasma expansion and condensation in the space environment will be
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Project Overview This PhD project focuses on the development of robust, low-cost, and compact laser delivery systems tailored for next-generation quantum sensors. These systems are essential
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. The processes are energy-intensive, lead to rapid catalyst deactivation, and result in high CO₂ emissions. This project aims to address these challenges by developing electrified non-thermal plasma catalysis
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In the process of laser shock peening (LSP), metallic structural components are hit by controlled laser pulses. The sudden vaporisation of material at the structural surface creates large magnitude
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dealing with investigations on the development of bespoke high-tech laser beam processing methods for surface treatment and repair of aero-engine components. The project will deal with the study of a new
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assessments, neuroimaging (EEG and/or fMRI), oxytocin quantification in plasma/saliva, and pharmacological interventions. Part 1 involves the continuation and completion of an ongoing MRC-funded clinical study
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undoubtedly of clinical utility in diagnostics and therapeutics. Current practices, in research and clinic, for protein sampling are invasive (blood, plasma or serum samples are used due to their protein