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personal protection equipment (PPE). Your responsibilities will encompass developing new robotic benchmarking testing setup, hardware and controller of a robotic mechanical impactor, and data acquisition
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porewaters from our Demonstrator field sites (treated and control plots/catchments), and synthetic solutions with ionic compositions constructed to mimic the envelope of chemistries of UK groundwaters and UK
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cavity structure enable a mechanism for the controlled Bose-Einstein condensation at room temperature, with applications in all-optical computing Nature Photonics 13 378 (2019) and quantum sensing Nature
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with spin-orbit-coupled interfaces and superconductors can be used to generate and control unconventional superconducting states. In particular, the project aims to realise and manipulate electron
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this project, we will be studying co-design of robot hardware and control for robot manipulation. “Co-design” aims to simultaneously optimise the robot hand design (e.g. the number of fingers, the shapes
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of controllable long-range dipole-dipole interactions, long trap lifetimes and strong coupling to electric and microwave fields. The project will explore the novel approach of using Feshbach resonances between Yb
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, e.g. DNA replication and repair. Evidence of aptitude for innovative computational analysis. Ability to design well controlled, appropriately powered experiments or analyses.
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for their expression in plant colonizing bacteria and integrating them into the chromosomes of appropriate chassis. Control systems will be designed to restrict expression to target plants and ensure optimal expression
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international publications in peer-relevant media. You have an outstanding dissertation. You bring didactic know-how and experience in e-learning. You have excellent command of written and spoken English (at
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maintenance. Of particular importance, the findings will open potential avenues to manipulate and rescue chemosensation through control of the microbial environment or provision of metabolites. The postdoc will