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simulations and finite element analysis, with high-heat flux electron beam experiments. The research will simulate and replicate steady, cyclic, and transient thermal loads to better understand PFM behaviour
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ambitious student, offering an exciting opportunity to explore main group-mediated small molecule activation and catalysis using heavy pnictogen elements (Sb and Bi) as sustainable alternatives to transition
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discrete spaces such as finite fields. You will conduct research using spectral methods in the theory of random walks and dynamical systems, and you will apply Fourier analytic methods in number theory. You
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inequality in health and social care, drawing on critical race and intersectionality frameworks, and work closely with postdoctoral researchers to support qualitative elements of the project, including ethics
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state-of-the-art two-photon lithography followed by conformal metal deposition, we will fabricate diamond-bond 3D ASI structures with controlled bond angles and lattice spacings. The magnetic microstate
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/or dynamic analysis of mechanical/robotic systems •Ability to use finite element modelling and to simulate complex mechatronics •Ability to implement control and kinematics with hardware-in-the-loop
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wetland invertebrates living in the seasonally flooded margins, which are heavily invaded, alongside open water habitats. The impact of Crassula on this critical component of wetland ecosystems remains
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(postdoctoral researcher on the project). The student will attend regular lab meetings with fellow students from within the project and other body image related projects, and benefit from membership
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of mechanical and robotic systems •Ability to use finite element modelling and to simulate complex mechatronics •Ability to implement control and kinematics with hardware-in-the–loop •Background with relevant
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complex metal structures. This opportunity is centred around improving manufacturing productivity with advanced laser-matter interactions control and optimisation. The PhD will advance our comprehension