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Field
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is difficult. This project will develop and harness state of the art chemical biology tools (Fig. 1) and advanced optical methods to control and monitor GPCR signalling in space and time and evaluate
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Lunar Power Grid Advanced Control Strategies for Renewable Energy system A Circular Approach to Manufacturing Sustainable Powertrains for Wind Turbines PhD in Advanced Stochastic Control for for Renewable
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on developing optical setup to achieve controlled ultrafast switching driven by intense femtosecond laser pulses. The project will explore how localized plasmonic fields modulate the electronic and vibrational
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humidity-controlled terahertz spectroscopy to probe water properties within membranes, advancing material insights to optimise trade-offs for next-generation energy technologies. Project Detail: You will
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aid in environmental monitoring and pollution control. The outcomes will shape into practical guidelines and recommendations for policymakers and engineers to support adoption of the new designs in
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be undertaken at Imperial College London (Control and Power Research Group, Department of Electrical and Electronic Engineering) under the co-supervision of Professor Balarko Chaudhuri and Professor
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Supervisors Primary Supervisor - Dr Calum Williams Secondary Supervisors - Dr. Maciej Dabrowski , Prof Simon Horsley This PhD studentship will develop 3D-printed optical metamaterials to control
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exchange energy at such rapid rate that they blend together to form hybrid states at room temperature (strong coupling regime). We recently shown that one can control the quantum state and interaction
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easier to detect and measured experimentally. However, it is not well known yet how this process emerges and how one can control it. This PhD project will focus on developing the necessary theoretical
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explore ways to control their motion in 3D space. Synthetic microswimmers have many potential biomedical applications, including targeted drug delivery and non-invasive medical treatments. The swimmers