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: geochronology, sea-level reconstruction and ice-sheet dynamics geochemistry, paleoclimate and paleoenvironmental reconstruction reef geology and ecosystem response The overarching project design reflects
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-based algorithms (e.g., GNNs, deep reinforcement learning) design and simulate dynamic models of megaproject systems prepare and submit journal articles to high-impact publications contribute
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interdisciplinary environment for studying the dynamics of complex physical systems. Base Salary, Academic Level A, $113,634 - $113,634 p.a + 17% superannuation. About the opportunity The School of Physics
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Discovery Project (IODP) Expedition 389 : Hawaiian Drowned Reefs. Our team brings together expertise in: geochronology, sea-level reconstruction and ice-sheet dynamics geochemistry, paleoclimate and
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International Ocean Discovery Project (IODP) Expedition 389 : Hawaiian Drowned Reefs. Our team brings together expertise in: 1. geochronology, sea-level reconstruction and ice-sheet dynamics 2. geochemistry
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. Demonstrated experience in performing simulations at the atomic-scale, such as density functional theory (e.g. VASP, Ab-init, Quantum espresso), molecular dynamics (e.g. LAMMPS, DL-POLY), development of inter
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coupled nuclear engineering problems, using techniques such as (but not limited to) molecular dynamics, computational fluid dynamics, activation decay codes, kinetic Monte Carlo codes, particle transport
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) design and simulate dynamic models of megaproject systems prepare and submit journal articles to high-impact publications contribute to competitive grant proposals and research impact activities
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applicant will be involved primarily in research within this dynamic department. They will be a key member of the Australian Critical Minerals Research Centre and the ARC Training Centre in Critical Resources
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to mouse and non-human primates. You will be part of a dynamic, collaborative research team working alongside scientists and clinicians across the Snow Vision Accelerator, based in the state-of-the-art