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and Integration for Quantum Optomechanical Systems (NAMIQOS) Optical forces arise when light, which has no mass yet carries momentum, is deflected through interaction with a material object. Lasers of
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[3]. Several approaches to realise QMs have been envisaged and more recently a quantum optical memristor has been demonstrated experimentally [4-7]. Quantum coherent states can be realised in certain
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factors. Potential applications for both narrowband and broadband devices include true colour imaging systems, sensitive NIR cameras, low cost IOT sensors and optically enabled bioelectronics. The aim
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of this study is to improve diagnostic accuracy through development an AI system that can perform rapid processing of large 3D data volumes, and identify defects that are difficult to discern with the naked eye
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exploit a combination of digital image correlation (DIC) and particle image velocimetry (PIV) methods to robustly characterise the biomechanical behaviour of the HVs. DIC is a non-contact optical
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involved wearing eye trackers and heart monitors, which may not be suitable for real-time inspection setups. Besides, the tasks utilised to collect data for estimating CL were superficial and consequently
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for clean energy (hydrogen); and silicon for photonics and solar. They will be characterised by state of the art methods including XPS, SEM, TEM, dynamic light scattering, optical methods and mass spec