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sensing, for example vectorial nanoscale magnetometry. This project is to build an optical setup to enable the development of an hBN scanning probe which is then to be characterised and benchmarked
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for interfacing with the nervous system. The emerging field of “bioelectronics” provides a novel intervention by sensing and electrically stimulating the nervous system. This project will push capacity to further
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plant population genetics and genomics, and possess resilience for fieldwork in remote tropical environments. Join us to advance this pioneering research and contribute to significant ecological
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6 months. The project builds on the expertise of the Beer group in the design, synthesis and study of supramolecular host systems for charged and neutral guest recognition and sensing. About you
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and uncover how they go awry in human diseases. We are seeking a new colleague who balance independent thinking with a strong sense of teamwork. In this position, you will design and execute your own
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of extension depending on funding. The Oxford Ion Trap Quantum Computing group currently hosts one of the world’s highest performance networked quantum computing demonstrators, capable of remote Bell-pair
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completion) prior to taking up your appointment. The research requires experience in microfluidics and the development of sensing platforms. You will be expected to manage your own academic research and
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transform the material system to a platform for quantum technology: a coherent 2D spin-photon interface for networks and sensing. To achieve this goal, this project will advance the pulsed spin control