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tissues or reveal micro- or nano-structural features, like the small air sacs in lungs. To overcome these limitations, alternative X-ray imaging methods have been developed: X-ray phase-contrast and dark
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aims to obtain a comprehensive, integrated, multi-level understanding of mechanisms and features involved in the development and maintenance of eating disorders. This PhD scholarship is supported by
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global LIGO Scientific Collaboration, as well as Australia's OzGrav Centre of Excellent for Gravitational-wave Discovery. "Nuclear astrophysics from gravitational waves: understanding dense matter in
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can occur that are very different to the macroscopic world. Our group develops methods to measure and ‘see’ this atomic detail using some of the world’s most powerful electron microscopes. We apply
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that can be achieved e.g. in perturbative calculations, typically then also with direct bearing on current or planned measurements. Our team is part of several global collaborations, centred mainly in Europe
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the observed pattern of fundamental particles and forces emerged, using information carried by gravitational waves originating from the earliest times. To this end, with members of the Global And Modular BSM
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partner, a university (Monash University for this project) and CSIRO to co-develop a four-year industry-focussed PhD project. You will receive a four-year scholarship package of $47,000 annually (2025 rate
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. The project is nested with the Victoria Heart Hospital at Monash Clayton Campus and is focussed on developing and implementing electronic Patient Reported Outcomes Measures (ePROM) systems for heart failure
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large datasets and developing experimental techniques, including the use of artificial intelligence. There are also opportunities to be involved in the development and testing of new hardware for the next
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materials and we utilise these non-absorbed X-rays to massively increase image contrast and reduce radiation exposure using coherent synchrotron radiation. We have developed these “phase contrast” and “dark