ARC Centre of Excellence for Particle Physics at the Tera-Scale. The Large Hadron Collider, a gigantic particle accelerator at the CERN laboratory in Europe, has commenced operation. It will discover how particles gain mass, explore the identity of cosmological dark matter, and search for the new laws of physics needed for a satisfactory theory of the structure of matter. the Centre will provide the enhanced capability and institutional coordination and development needed for Australia to make a ....ARC Centre of Excellence for Particle Physics at the Tera-Scale. The Large Hadron Collider, a gigantic particle accelerator at the CERN laboratory in Europe, has commenced operation. It will discover how particles gain mass, explore the identity of cosmological dark matter, and search for the new laws of physics needed for a satisfactory theory of the structure of matter. the Centre will provide the enhanced capability and institutional coordination and development needed for Australia to make a major contribution to this most prestigious international project. It will transform Australia's standing in fundamental physics, provide unsurpassed training, generate many linkages in science and technology, and lead an important public outreach program.Read moreRead less
The Standard Model and beyond on supercomputers. Using the latest advances in supercomputing, the researcher will confront some of the most challenging problems facing nuclear and particle physicists.
Investigation of New Physics via matter-antimatter asymmetries. The universal matter-antimatter asymmetry and the existence of dark matter imply that new fundamental physics must exist. Recent anomalous results provide evidence that the nature of new physics can be discovered by observing B-meson decays. The project aims to do this with the Belle II experiment in Japan. Discovering new physics would be a substantial scientific discovery leading to a paradigm change in Fundamental Physics. In the ....Investigation of New Physics via matter-antimatter asymmetries. The universal matter-antimatter asymmetry and the existence of dark matter imply that new fundamental physics must exist. Recent anomalous results provide evidence that the nature of new physics can be discovered by observing B-meson decays. The project aims to do this with the Belle II experiment in Japan. Discovering new physics would be a substantial scientific discovery leading to a paradigm change in Fundamental Physics. In the process of making the measurements we will develop and enhance international collaborations, develop new techniques for machine-learning and create innovative work-flow software.This will enhance the international reputation of Australian Universities leading to increased exports of Australian education.
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