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Geophysics at Curtin University in Perth, Western Australia, offers an exciting PhD research opportunity in the area of active and passive seismic data analysis. The PhD candidate will be involved in
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utilize a range of state-of-the-art mineral characterization and isotopic analysis techniques available at the John de Laeter Centre (https://jdlc.curtin.edu.au/facilities/ ). This opportunity also
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in an innovative and interdisciplinary approach. A background in science and engineering or social science and policy analysis is desirable. Experience with systems modelling (e.g. system dynamics
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of potential options for implementation. This will include prototyping and testing of various implementation options, analysis and documentation of results. Project 2 - Future Power System Modelling: As part of
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of their remnants (including predictions for GW sources); mixing and transport processes in the stellar interior; nucleosynthesis and the origin of elements, including galacto-chemical evolution - which elements
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cosmolgy, galaxy evoltion and stellar astrophysics. Students in my group primarily perform numerical simulations of stars, in order to study broad questions related to the origin of the elements in
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strengthen their applications by demonstrating strong research potential, which may include: Completion of a degree with a substantial research component (at least 25%), such as an Honours degree or higher
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formation. 4) Computational analysis of reaction systems and catalyst performance from macroscopic to microscopic viewpoints. Study modelling methods to evaluate structural stability, equilibrium gas
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stellar interiors, birth properties of black holes and neutron stars, supernova light curves and spectra, gravitational waves, neutrino astrophysics, the production of heavy elements stellar explosions, and
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potential, potential end use and the commercial viability of processing the wastes. Once the target mineral(s)/metal(s) are identified, researcher(s) will refine identified prospective processes, and