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surveillance) sensors can also be seen as temporal events. While data from current sensors can be manually converted into events for fast processing, it is also possible to develop hybrid structures where some
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will grasp the technical challenges of developing and demonstrating precision laser-based processing. Research Environment They will work directly with Dr. Richard Carter (project lead), Prof M J Daniel
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://edwebprofiles.ed.ac.uk/profile/professor-euan-k-brechin ) and Prof. Chris Stock (https://www.ph.ed.ac.uk/people/christopher-stock ), and in addition to offering the chance to develop new skills in cross-disciplinary
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developing cutting-edge research on all aspects of computational imaging, from theory and algorithms, to applications in astronomy and medicine. Dr Wiaux is a Professor in the School of Engineering and
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range of industrial sectors. The Laser Device Physics & Engineering group under the lead of Prof Esser drives the research and development of new laser sources in the near-infrared and mid-IR
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tools are need during the development of new imaging and sensing systems. With the rapid deployment of data-driven methods, repliable uncertainty quantification remains a big challenge that requires
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research centre (Hub) funded by EPSRC for a 5-year research programme into Integrated Quantum Networks (IQN). The IQN Hub is supported by an initial £21.8M award from UKRI and additional industrial support
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quantum field theories, and the application of Hamiltonian methods to gauge theories, though you will also be encouraged to develop and pursue your own research directions. Applicants should have a PhD in
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, https://lupo-lab.com ) seeks a talented and motivated scientist to drive a research programme in advanced ultrafast nonlinear optics and attosecond-resolution ultrafast spectroscopy. The goal