The Dawn of Extreme Gamma Ray Astronomy. This project aims to reveal the highest energy cosmic-ray particles in our galaxy, produced in extreme and still unknown astrophysical processes. Their interaction with nuclei in space produces the highest energy gamma ray light. Our project will make use of this extreme gamma ray light with upgraded and next-generation gamma-ray telescope arrays. With accompanying data from Australian radio telescopes, and computer models of the cosmic ray interactions, ....The Dawn of Extreme Gamma Ray Astronomy. This project aims to reveal the highest energy cosmic-ray particles in our galaxy, produced in extreme and still unknown astrophysical processes. Their interaction with nuclei in space produces the highest energy gamma ray light. Our project will make use of this extreme gamma ray light with upgraded and next-generation gamma-ray telescope arrays. With accompanying data from Australian radio telescopes, and computer models of the cosmic ray interactions, our project can finally determine from where these cosmic rays originate, yielding insight into our galaxy's evolution. Complex machine learning methods will be needed in a project that provides a world-leading student training ground, motivated by a century old mystery in astronomy.Read moreRead less
Exploring the High Energy Universe with Neutrinos detected in IceCube. The project aims to use the high energy neutrinos observed by the IceCube detector at the South Pole to uncover
the nature of the most energetic objects in the Universe. This project expects to find out what distant objects made
the neutrinos, understand their distribution through the Universe, and see if they are also cosmic and gamma ray
acceleration and production sites. Expected outcomes of this project include solving th ....Exploring the High Energy Universe with Neutrinos detected in IceCube. The project aims to use the high energy neutrinos observed by the IceCube detector at the South Pole to uncover
the nature of the most energetic objects in the Universe. This project expects to find out what distant objects made
the neutrinos, understand their distribution through the Universe, and see if they are also cosmic and gamma ray
acceleration and production sites. Expected outcomes of this project include solving this long-standing mystery in
high-energy astrophysics, development of new data analysis techniques, training new scientists, and educating
the public. These should provide significant benefits to science and society, through a better educated and critical
thinking workforce and public, ready to face future challenges.Read moreRead less
Understanding the nature and origin of the highest energy cosmic rays. This project aims to harness the capabilities of the upgraded Pierre Auger Observatory to identify sources of the highest energy cosmic rays, the most energetic particles known in the Universe. Their origin is one of the longest standing mysteries in astrophysics, but answers are now within reach. Expected outcomes of the project include mass estimates for every measured cosmic ray, and sky maps of cosmic ray arrival direct ....Understanding the nature and origin of the highest energy cosmic rays. This project aims to harness the capabilities of the upgraded Pierre Auger Observatory to identify sources of the highest energy cosmic rays, the most energetic particles known in the Universe. Their origin is one of the longest standing mysteries in astrophysics, but answers are now within reach. Expected outcomes of the project include mass estimates for every measured cosmic ray, and sky maps of cosmic ray arrival directions that take into account the cosmic ray charge, minimising the effects of path deflections by cosmic magnetic fields. These maps will reveal new information on the types of astrophysical objects capable of accelerating particles to extreme energies, a major step towards solving this difficult problem.Read moreRead less
Design and Fabrication of 2D Hybrid Materials. There are >300 2D materials like graphene with potentially exotic and useful electrooptic and superconductor properties that will drive novel industrial applications. This project aims to use advanced computational and experimental techniques to discover and fabricate new 2D hybrid materials built from different layers of 2D materials. This approach is essential as the number of possible hybrids is huge (millions) and current processes to identify a ....Design and Fabrication of 2D Hybrid Materials. There are >300 2D materials like graphene with potentially exotic and useful electrooptic and superconductor properties that will drive novel industrial applications. This project aims to use advanced computational and experimental techniques to discover and fabricate new 2D hybrid materials built from different layers of 2D materials. This approach is essential as the number of possible hybrids is huge (millions) and current processes to identify and build 2D hybrids are technically challenging and slow. Expected outcomes include defining a new paradigm for efficient identification and synthesis of 2D hybrids with exotic, bespoke properties. The generation of a large database of materials for researchers/industry would be of wide benefit.Read moreRead less
Fisheries genomics of snapper in Australia and New Zealand Waters. This industry-driven project aims to assemble a strategic research alliance to generate and apply knowledge to a highly significant fisheries resource. It involves collaboration between the five major state government fisheries agencies in Australia, the New Zealand’s Crown Research Institute for seafood and two Australian labs with leadership in fish genetics and genomics. It expects to generate and integrate genomic, environmen ....Fisheries genomics of snapper in Australia and New Zealand Waters. This industry-driven project aims to assemble a strategic research alliance to generate and apply knowledge to a highly significant fisheries resource. It involves collaboration between the five major state government fisheries agencies in Australia, the New Zealand’s Crown Research Institute for seafood and two Australian labs with leadership in fish genetics and genomics. It expects to generate and integrate genomic, environmental and phenotypic datasets for snapper populations from across vast coastal regions of the two countries. The outcomes should substantially enhance intra- and inter-jurisdictional fisheries management and aquaculture initiatives, providing commercial, social and environmental benefits for many stakeholders.Read moreRead less