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a strong background and/or interest in experimental quantum optics or atomic physics. Previous experience in the field of ion trapping will be essential. Candidates will be expected to demonstrate a
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, see empg.maths.ed.ac.uk ). Possible projects include the computation of nonperturbative scattering amplitudes, the study of thermalization and chaotic behaviour in quantum field theories, and the
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This is a theoretical/computational postdoctoral position for the prediction and development of strongly correlated materials for use in quantum technologies. Project activities include
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are invited for an EPSRC funded Postdoctoral position in theoretical quantum optics, at the Department of Physics, Lancaster University. Cold atomic gases cooperatively coupled with light provide a rich
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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 a large variety of fields including defence, astronomy, art investigation, or medicine. Our research activities range from signal and image processing theory to application, and impact different
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electrochemistry. Our goal is to combine electronic structure theory, molecular and quantum dynamics methodology, and machine learning methods to achieve an accurate yet computationally feasible description
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. Research Environment The project is in collaboration with two partners: (i) IDCOM at the University of Edinburgh, which develops theory, algorithms and hardware for the next generation of signal processing
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symmetries and quantum field theory, string theory and holography, amplitudes and correlators, and solitons in field theory. There is a wealth of relevant expertise, with the Group counting amongst its members
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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