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My research focuses on strongly interacting quantum systems at the interface between condensed matter physics and ultracold atomic gases. In particular, I am interested in the interplay between few
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My research connects stars, dust, and gas, with the goal of building a unified multidimensional picture of the Milky Way and nearby galaxies. I am particularly interested in the lifecycle of matter
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My area of expertise is condensed matter theory. I am interested in the interplay between interactions and unconventional electronic properties of novel materials including graphene, topological
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Observatory (LIGO) in order to understand the fate of massive stars, to probe how binary black holes form, and to understand the nature of matter at the most extreme possible densities. Occasionally, we
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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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LHCb experiment Searching for matter-antimatter differences in charm hadron decays Developing new probes to characterise proton-proton collisions web page For further details or alternative project
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surveys and targeted observations are used to search for active galactic nuclei, trace star formation and measure stellar kinematics within galaxies. How galaxies grow within structures dark matter can be
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and quantum impurities. I was previously part of the Australian Centre of Excellence for Future Low-Energy Electronics Technologies (FLEET), where I led the theoretical effort on light-matter coupled
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of light, focusing on controlled light-matter interactions at the nanoscale. Driven by the fascinating optical physics and photonic applications across various fields, my work spans many topical areas in
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My interests span a wide range of topics in theoretical physics, including: geometric phases, topological defects in matter and radiation fields, inverse problems (scalar and vector tomography