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We are looking for an excellent post-doctoral candidate with a PhD / DPhil (or near completion) in quantum optics, solid state quantum physics, magnetic resonance or related areas. The successful
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-on-Si SPAD (2013), and first planar Ge-on-Si SPAD (2018). In quantum communications systems: work in the field led to a world record transmission distance quantum key distribution system (2001); the first
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to contribute to the development of new techniques for low-temperature microwave-optical conversion, as well as new knowledge in the field of semiconductor quantum optics. The successful candidate will be
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value of benefits provided by Heriot-Watt University Detailed Description This project is part of the new UK Hub in Quantum Sensing Imaging and Timing (QuSIT), that stands as an international centre
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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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in sustainability, photonic and quantum technologies, new nanostructured materials, sensing, imaging and clean energy. The group adopts an interdisciplinary approach to provide leading-edge research in
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quantum networks. Optical readout of electronic and nuclear spins on the single spin level can give rise to nanoscale sensors of magnetic field, temperature, and pressure. We have recently discovered
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Postdoctoral Researcher in Machine Learning of Isomerization in Porous Molecular Framework Materials
for isomerization in MOFs: https://doi.org/10.1039/D3QI01065A What we are looking for: A PhD in Chemistry, Materials Science, Physics or a related field Experience in python (ASE, scikit-learn, pytorch) is essential
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, Mathematics, Physics or related subject (or a thesis submitted by the start date of the position). Ability to articulate research work, both in written technical reports / papers and by oral presentation. Must
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temporal properties: ultrabroadband supercontinua, intense sub-cycle field transients, and few-femtosecond ultraviolet pulses, among many others. We combine numerical modelling with experiments to study the