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ultra-efficient lasers and all-optical transistors. Our goal is to uncover the elusive physics of strongly interacting polaritons far from equilibrium, bringing the vision of room-temperature superfluid
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numerical modelling framework to simulate how light and heat interact with the target body tissue, while also incorporating neural signalling dynamics to explore how light-based stimulation affects
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ultra-efficient lasers and all-optical transistors. Our goal is to uncover the elusive physics of strongly interacting polaritons far from equilibrium, bringing the vision of room-temperature superfluid
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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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to four years, ensuring your focus remains on producing impactful, high-quality research. As part of this joint initiative between Swinburne University and ANCA, you will undertake at least two months of
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) and computer simulation (FEA) Experience in material characterisation and experimental testings Knowledge in impact dynamics Passionate and have interest in pursuing PhD degree. Experience in research
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We are seeking a highly motivated and skilled graduate in chemistry, materials science, chemical engineering, or biomedical engineering to join our research team as a Research Scientist/Engineer. This
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Applied mathematics, fluid mechanics, high-performance computer simulations. Full time, fixed term position (3 years) at Hawthorn campus $34,700 per annum (2025 rate) About the Scholarship Higher
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of the project will be developed in collaboration among Forensicare, the CFBS, and the successful applicant. The chosen candidate will join one of our Doctoral programs, integrating into high-performing academic
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Ten per cent of stipend for a spouse and five per cent for each child. US $500 for settling in, and again for returning home US $300 for books and materials. How to apply Contact