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using nano-vibration detection and super-resolution imaging. Funded by the Royal Society APEX Award (with support from the Royal Society, British Academy, Royal Academy of Engineering, and Leverhulme
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or in protective coatings/linings, in combination with in-situ electrochemistry, e.g. electrochemical noise and surface analysis, e.g. SEM/EDX. Combination of the above with various state-of-the-art
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experiments with representative materials in combination with in-situ electrochemistry, e.g. electrochemical noise and surface analysis, e.g. SEM/EDX. Variables include: Micro-organism(s) Environment (sediment
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improves the performance of ROMs, making them more applicable to real-time structural health monitoring, vibration analysis, and control design. This research offers real-world impact across several
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-radio offsets of few 0.1 mas to several mas, preventing from realizing a wavelength-independent CRF. In this thesis, we propose to, firstly, revise the VLBI analysis methods currently in use to better
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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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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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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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`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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computing and analysis of data will enable the development of control mechanisms that will overcome one of the major barriers for exploiting the benefits of hybrid propellant propulsion systems. The project