9 modelling-complexity-geocomputation PhD positions at Swinburne University of Technology
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the below key accountabilities: Experience in optical and thermal modelling, and/or optical design and fabrication. Experience in numerical modelling of light propagation and heat in complex media, including
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Looking For: We’re looking for a driven and capable student who is eager to tackle complex, high-impact problems in quantum physics. The ideal candidate will have: A strong background in theoretical physics
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Looking For: We’re looking for a driven and capable student who is eager to tackle complex, high-impact problems in quantum physics. The ideal candidate will have: A strong background in theoretical physics
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quantum media—and seeks to deepen our understanding of their behaviour in ultracold atomic gases and complex quantum materials. By harnessing ultracold atoms as highly controllable quantum simulators
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. This position will focus on one key stream: understanding and improving the interaction between EVs and roadside barriers. This will involve: Modelling EV crash dynamics with conventional and SRB barriers
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nanoparticles in drug delivery or diagnostics, familiarity with cellular targeting, and use of computational tools to model nanoparticle behaviour. Experience in a regulated research environment is also
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mechanisms and transformer models. Qualifications Bachelor’s degree with First Class Honours (or equivalent) and/or a research master’s degree in computer science, AI or Computer Vision; or an equivalent
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their journey towards improved wellbeing and more meaningful lives Strengthens the capability and wellbeing of our staff Addresses the mental health and other causes of violence and complex problem behaviour
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the Collaborative Research Centre for Low Carbon Living. The project uses agent based modelling (ABM) to represent consumer behaviour, social networks and their responses to non-financial incentives and barriers in