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are possible. The successful applicant will use hydrodynamical simulations to study how gas evolves in debris discs (e.g. what is its expected viscosity), how gas interacts with the dust to potentially produce
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plant growth, development, and stress responses. This is a unique chance to contribute to a world-first imaging technology that bridges the gap between traditional microscopy and the ‘omics’ technologies
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. Applicants will possess a PhD in mathematics, physics, meteorology, geosciences or a related field. The successful applicant will be a nationally recognised authority in dynamical modelling and possess
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unique chance to contribute to a world-first imaging technology that bridges the gap between traditional microscopy and the ‘omics’ technologies, with exciting potential across plant biology and beyond
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sources of research funding and contribute to the process of securing funds and make presentations at conferences and other events. Applicants will possess a relevant PhD or equivalent qualification