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that can actively control temperature (via infra-red heating lamps and soil warming cables) and atmospheric CO2 (via the addition of CO2 gas). A bespoke microprocessor-based feedback control system will be
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construct field-based open-top plant growth chambers that can actively control temperature (via infra-red heating lamps and soil warming cables) and atmospheric CO2 (via the addition of CO2 gas). A bespoke
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silico work, including sequence design, data analysis, experimental planning, and writing publications. The postdoc will work closely with the PI and a PhD student. An ideal candidate must hold, or be
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renewable DNA computing prototype. The role encompasses both wet-lab and in silico work, including sequence design, data analysis, experimental planning, and writing publications. The postdoc will work
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(PTO) system and control technology. Building on past projects, it focuses on designing durable systems, using advanced controls to adapt to wear and tear, and supporting a circular supply chain. With
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developing a more efficient, reliable Power Take Off (PTO) system and control technology. Building on past projects, it focuses on designing durable systems, using advanced controls to adapt to wear and tear
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, demarcated and debated in colonial contexts, the systems set up to cater for and control veterans, and the political impact of veterancy on the colonial order. This innovative research will not only deepen our
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. The project has three key strands, exploring the way veterancy was defined, demarcated and debated in colonial contexts, the systems set up to cater for and control veterans, and the political impact of