46 postdoc-computational-fluid-dynamics-"Prof" Fellowship research jobs at The University of Queensland
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computational fluid-solid mechanics with a focus on coupled poromechanical modelling for coal seam gas (CSG) production, fluid injection, and geomechanical responses such as subsurface compaction and subsidence
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Fellow to join The University of Queensland’s Node of the EarthBank Program — a newly established national geoscience initiative under NCRIS AuScope. EarthBank is a transformative program aimed at
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internationally recognised for its expertise in computational fluid dynamics (CFD), multiphase and multiphysics flow, and nonlinear solid mechanics, supported by access to world-class high-performance computing
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team to drive innovation in plant breeding. Key responsibilities will include: Research: Conduct and publish high-quality research, develop a coherent research program, and actively pursue competitive
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simulations using DFT (particularly of surface processes); kinetic Monte Carlo simulations; molecular dynamics simulations; classical and machine-learned force fields. Highly developed skills in scientific
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of a PhD in experimental solid-state quantum computing. Postdoc (research scientist) experience is desirable. A growing profile in research in research in the area related to circuit QED and/or
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, including commercialisation of UQ intellectual property; develop a coherent research program and an emerging research profile; review and draw upon best practice research methodologies. Supervision and
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(Academic Level C) Based at our St Lucia campus About This Opportunity This is an exciting opportunity for a Senior Research Platform Fellow - Deputy Director for the National Quantum Computing Testbed
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for the manufacture of computer chips. The project is supported by the Australian Research Council Linkage Project “Innovative Double Patterning Strategies for Integrated Circuit Manufacture” and is within
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, with a specific focus on complex biological systems. The project aims to apply highly controlled optical trapping techniques to investigate cell–fluid interactions during macropinocytosis (“cell drinking