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methods like ZX-calculus) towards description of quantum noise employ such extended methods for quantum circuit compilation, optimization and error mitigation collaborate with theoretical computer
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in Random Media’. The PhD position focuses on the dynamical behaviour of stochastic partial differential equations (SPDEs). In particular, we will consider the impact that noise terms have on patterns
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structure calculations based on DFT implemented in Plane-Waves. We determine electronic and vibrational properties, solution energies, diffusion barrier for hydrogen in materials. We model defect creation
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`Patterns in Random Media’. The PhD position focuses on the dynamical behaviour of stochastic partial differential equations (SPDEs). In particular, we will consider the impact that noise terms have on
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. The primary research goal of the PhD student will be to integrate multisensory exposure (visual, vibration, … ) into the design of listening tests – all with the aim of better understanding the complex
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efficient simulators for continuous and discrete variable systems with noise based on Gaussian/stabilizer decompositions quantum error mitigation and correction for continuous variable systems evaluating and
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bioimmunostimulants, biopesticides, biofertilisers, biobased plastics, and bioenergy. Key focuses include reducing greenhouse gas emissions, optimising exhaust flows, minimising noise, recovering thermal energy, and
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Interested in working on a the future of optical inertial sensing for mechatronic vibration control? Join our team! Job description The CHiPS (Compact High-Precision Sensors) project aims
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to vibrations causing communication system to ‘lose their locking’ and prevent such a system from functioning properly. The flight ECT development is a fantastic testbed to develop these technologies
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algorithms for optimization Quantum annealing Quantum inspired optimization Quantum machine learning with a special emphasis on classical optimization of QML algorithms Noise mitigation in relation