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Be part of the robotics revolution by joining our PhD programme in photonic sensors. The future of robots lies in increased flexibility and performance, and to enable this better performing and
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unites two areas of quantum information processing: single ions stored in radio-frequency traps and single photons in optical fibres. Both fields have seen spectacular advances in recent years with
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of Photonic Technologies to be undertaken within the College of Engineering and Physical Sciences at Aston University. Financial Support This studentship includes a bursary to cover the fees rate, plus an
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PhD position in Physics, under the supervision of Prof. Noel Healy Integral to the second quantum revolution is the entangled photon. These emergent particles are essential in many technologies
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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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addition to the research project outlined below you will receive substantial training in scientific, technical, and commercial skills. Nonlinear parametric photonics is used to control quantum systems as well as sources
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commercial skills. Optical fibres can transport light over long distances with very low loss. However, transporting quantum bits (qubits) using photons suffers from the interaction of the qubits with the glass
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components for interfacing quantum computers and photonic quantum networks. Unlike optical telecoms, where losses are tolerated and compensated by amplifiers, in the world of quantum technology, every photon
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Project title: Integrated photonics for ion-trap quantum computing Supervisory Team: Dr Peter Horak, Dr James Gates Project description: The University of Southampton is expanding its PhD research
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photonics research. The ocean, which acts as an environmental buffer by absorbing heat and carbon dioxide (CO2 ) from human activity such as burning fossil fuels and changing land use (e.g. deforestation), is