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-ray, neutron, and charged-particle flux; material selection for structural and functional reactor components; exploration of advanced and conventional cooling systems; energy extraction and conversion
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multidisciplinary fields. The specific topic area of the post is the development of optical trapping and rotation of particles in vacuum for studies of fundamental physics. This will explore the classical-quantum
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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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, including cyclic loading and particle breakage effects, for use in numerical modelling. Collaborate with UWA and NGI investigators to support the broader research project, including developing predictive
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induced fluorescence, backlit shadowgraphy, and/or particle imaging methods disseminate results at suitable venues (with a preference for international peer-reviewed journal articles) and prepare follow-up
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performing irradiation campaigns of materials with neutrons or charged particles. Proven experience in characterization of materials using a range of analytical techniques. Proven commitment to proactively
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”). This includes using structured light and angular momentum transfer to manipulate nano- and micron-sized particles in and around cells. By developing new methods to generate quantitative measurements
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Particle Physics, Materials Science, Physical Biosciences, Theoretical Condensed Matter Physics and Theoretical Particle Physics. Be Yourself The University of Melbourne is an Equal Opportunity Employer and