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experience in at least one of the following would be highly regarded: (i) the theory and simulation of scattering, diffraction and imaging with high energy electrons or X-rays; (ii) solving inverse scattering
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discipline within RMIT’s School of Science. This is an exciting opportunity to contribute to cutting-edge research in quantum science and mathematics, specifically within the QuRMIT Theory Lab and the ARC
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within RMIT's School of Science. This is an exciting opportunity to contribute to cutting-edge research in quantum science and mathematics, specifically within the QuRMIT Theory Lab and the ARC Future
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Factors theory and application in health systems. About Monash University Join Monash University’s dynamic research environment at the Alfred precinct, where ground-breaking translational medicine meets
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development, calibration, and coding of a constitutive model to reflect uncemented carbonate sand behaviour, including cyclic loading and particle breakage effects, for use in numerical modelling. Collaborate
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geotechnics, at the forefront of research in offshore renewables. About the opportunity Lead the development, calibration, and coding of a constitutive model to reflect uncemented carbonate sand behaviour
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in control theory, and/or optimisation and a strong interest in power systems Demonstrated ability to conduct independent research and publish in high-quality venues. Level B applicants will have: A
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within the academic community. It suggests generating important and valuable outcomes that can advance knowledge, theories, or practical applications within a specific field. Reviewers should consider
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writing C++ backend code, improving deployment on large-scale infrastructure, and implementing new features such as time-domain and Virtual Observatory functionality. Collaborate with international teams
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languages (e.g., Julia, Matlab, C#, C++) Familiarity with the applications and theory of environmental genomics Qualifications: A PhD in quantitative ecology, quantitative conservation biology, applied