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Supervisory Team: Ioannis Zeimpekis Project description: Enabling integrated and free space photonics with advanced reprogrammable materials. The current increase in data generation is expected
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A fully funded, 3.5-year PhD position is available in the Ion Trap Cavity-QED and Molecular Physics (ITCM) Group in the Department of Physics & Astronomy at the University of Sussex. The project is
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have, or be close to obtaining, a PhD in Physics, Materials Science, Engineering or related areas. Specialist knowledge & skills: - Quantum photonics, quantum optics, nano-photonics, quantum dot and
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cognitive resilience to Alzheimer’s disease mouse models using state-of-the-art in-vivo two photon imaging and optogenetics. Your skills and attributes for success: A PhD (or PhD near completion) in in
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should have a PhD in Electronic Engineering, or related discipline (or about to submit a PhD thesis). Knowledge of integrated photonics design and characterisation are essential. Candidates should have the
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picometre scales, with a view towards the development of disruptive light-enabled technologies - see “The Birth of Picophotonics” [Optics & Photonics News, Sept. 2023] . You will join a major Programme
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generation of artificial intelligence. The project aims to create a revolutionary semiconductor platform using 2D materials to enable electronic, photonic and energy application while unlocking the ultimate
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to understanding how brain-wide neural circuits lead to flexible cognitive behaviours. The techniques employed may include chronic in-vivo 2-photon and 3-photon calcium imaging of excitatory and inhibitory cell
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the entry requirements of MRes + PhD programme at UCL: https://www.ucl.ac.uk/prospective-students/graduate/taught-degrees/connected-electronic-and-photonic-systems-mres https://www.ucl.ac.uk/prospective
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thin two-dimensional (2D) materials within ARF structures, opening up exciting opportunities for next-generation photonic and optoelectronic devices and applications at the monolayer limit. In this PhD