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Field
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assessment’). Tasks will include the development and evaluation of digital tools for screening and profiling persons with untreated hearing problems with a focus on speech perception in noise, suprathreshold
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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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. 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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technologies such as navigation, positioning, and force sensing, while also enabling fundamental research into questions like the quantum nature of gravity. To bring these vibrating systems into the quantum
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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
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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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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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like the quantum nature of gravity. To bring these vibrating systems into the quantum regime, they must be isolated from their environment. One powerful approach is to levitate them in vacuum with
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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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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