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Microscopic many-body quantum dynamics: new approaches for fundamental science and applications. A new approach to create and validate a fundamental microscopic quantum theory of interactions of composite systems, like molecules and nuclei, by exploiting ideal features of nuclear reactions such as fusion will be developed. This will have broad impact in interdisciplinary areas from astrophysics and molecular reactions to future nanotechnologies.
Fusion Energy and the Physics of Burning Plasmas. The world faces a global energy crisis. Our standard of living, which is largely powered by base-load electricity supply, is unsustainable. Fusion power is a near zero greenhouse gas technology, which promises millions of years of base-load electricity, free from weapon proliferation. This promise has galvanised the international community to accelerate fusion development by committing to the next-step technology-enabling $16 billion experiment, ....Fusion Energy and the Physics of Burning Plasmas. The world faces a global energy crisis. Our standard of living, which is largely powered by base-load electricity supply, is unsustainable. Fusion power is a near zero greenhouse gas technology, which promises millions of years of base-load electricity, free from weapon proliferation. This promise has galvanised the international community to accelerate fusion development by committing to the next-step technology-enabling $16 billion experiment, International Thermonuclear Experimental Reactor (ITER). In anticipation of ITER, this fellowship will foster growth of Australian fusion research, and address a grand science challenge facing ITER: how do we maintain burn in the face of potentially damaging plasma instabilities? The answer will affect both ITER and the viability of fusion power.Read moreRead less
New directions for nuclear structure research in Australia. Studies of exotic nuclei far from stability with novel devices will support Australia's only top-level research effort in nuclear structure. The research will have fundamental impacts on our understanding of both the nucleus and stellar nucleosynthesis, as well as practical implications for the development of next-generation nuclear reactors.
The origin and evolution of heavy elements in the early universe. Everything in our Solar System, including all life on Earth, was created long ago out of material forged inside fiery stellar furnaces. The latest theoretical simulations of element production in red giant stars reveals the processes that gave us our existence, as well as help us to understand the origin of the galaxy that we inhabit.
The origin of the elements heavier than iron. This research investigates the cosmic origin of the elements heavier than iron, as they are produced by nuclear reactions inside stars. The study of these elements in stars and meteorites will help us to understand the origin and history of the Solar System, of old stars and of stellar clusters and galaxies.
The plasma boundary: a major challenge for fusion science and material technology for ITER and beyond. Plasma-surface interaction drives technological innovation in areas of nanofabrication, space science and magnetic fusion systems. This interdisciplinary research project will foster national and international collaborations, keeping Australia internationally competitive in, and at the forefront of, future technologies for energy and materials.