Physics of extreme brightness temperatures in radioastronomical sources. Pulsars and some quasars are so very bright that the conventional explanation for radioastronomical emission from other sources either does not apply to them, or presents unsolved problems. We see (in radio waves) these sources through the interstellar medium which acts like a wrinkled pane of glass in distorting the image. New scientific ideas and methodologies are proposed here and will be explored in the project, with th ....Physics of extreme brightness temperatures in radioastronomical sources. Pulsars and some quasars are so very bright that the conventional explanation for radioastronomical emission from other sources either does not apply to them, or presents unsolved problems. We see (in radio waves) these sources through the interstellar medium which acts like a wrinkled pane of glass in distorting the image. New scientific ideas and methodologies are proposed here and will be explored in the project, with the objective to understand these sources and to extract information on their propreties and those of the interstellar medium. Read moreRead less
Topological order and anyons: quantum engineering of emergent physics. Australia is recognized as one of the world leaders in the area of quantum information and computation. As a frontier technology with tremendous potential but engineering challenges it is vital we expand our theoretical landscape to better steer experimental development. A promising new paradigm is topological quantum computation which uses particles with exotic statistics called anyons that do not exist naturally in three d ....Topological order and anyons: quantum engineering of emergent physics. Australia is recognized as one of the world leaders in the area of quantum information and computation. As a frontier technology with tremendous potential but engineering challenges it is vital we expand our theoretical landscape to better steer experimental development. A promising new paradigm is topological quantum computation which uses particles with exotic statistics called anyons that do not exist naturally in three dimensions but can be engineered to emerge in two dimensional spin lattices. Our bottom up research program would help place Australia at the forefront of these ideas. As a field which combines tools from mathematics, computer science, and physics this project will provide world class training to young researchers.Read moreRead less
Dynamics of Multiscale Complex Systems. Australia has built a strong position in the science and applications of multiscale phenomena, especially in interdisciplinary fields. The project will advance this position in plasma and biomedical physics by making new discoveries, developing new methods of analyzing such systems, and applying them to achieve practical outcomes. It will underpin Australia's participation in NASA's $600M STEREO mission, and will lead to improved methods and technologies ....Dynamics of Multiscale Complex Systems. Australia has built a strong position in the science and applications of multiscale phenomena, especially in interdisciplinary fields. The project will advance this position in plasma and biomedical physics by making new discoveries, developing new methods of analyzing such systems, and applying them to achieve practical outcomes. It will underpin Australia's participation in NASA's $600M STEREO mission, and will lead to improved methods and technologies for brain function analysis and imaging, which will be commercialized via industry partnerships. It will contribute to national research goals, especially in Breakthrough Science, Frontier Technologies, Smart Information Use, and Promoting Innovation.Read moreRead less
Physics of Self-Organization: From Space Plasmas to Brain Dynamics. Nature displays intricate, self-organized structures and behaviors that often emerge from simple underlying rules. This project will explore and unify fundamental regimes of self-organization, and apply them to explain phenomena in space, plasma, and wave physics, including making key inputs to the international STEREO space mission. In a core initiative, sophisticated tools from these fields will be transfered and adapted to a ....Physics of Self-Organization: From Space Plasmas to Brain Dynamics. Nature displays intricate, self-organized structures and behaviors that often emerge from simple underlying rules. This project will explore and unify fundamental regimes of self-organization, and apply them to explain phenomena in space, plasma, and wave physics, including making key inputs to the international STEREO space mission. In a core initiative, sophisticated tools from these fields will be transfered and adapted to analyze self-organized brain dynamics, leading to the first self-consistent "working brain" model. The results of this innovation will be used to develop new imaging technologies, to probe brain function via the new windows they open, and to exploit them commercially.Read moreRead less
Atomic tests of unification theories. Although the standard model of particle physics has withstood decades of intensive experimental tests, it is widely believed to be merely a low-energy manifestation of a "true" theory that unifies the four forces of nature. While some searches for new physics beyond the standard model are performed at high-energy particle accelerators, a very sensitive probe can be done at low energies in atomic and molecular measurements of weak interaction effects. This pr ....Atomic tests of unification theories. Although the standard model of particle physics has withstood decades of intensive experimental tests, it is widely believed to be merely a low-energy manifestation of a "true" theory that unifies the four forces of nature. While some searches for new physics beyond the standard model are performed at high-energy particle accelerators, a very sensitive probe can be done at low energies in atomic and molecular measurements of weak interaction effects. This project is devoted to a theoretical investigation of weak interaction effects in atoms, molecules, and nuclei. It will provide improved tests of unified theories.Read moreRead less
Quantum plasmas. Quantum effects become important under extreme conditions, and a newly developing field of "quantum plasmas" is motivated by two different extremes for ionized systems. One is in very small electronic devises, where electrons carrying the currents become wave-like with a wavelength comparable with the size of the device. The other is in the extremely intense optical light spots now available by focusing high-power lasers. In this project we propose to take a leading role in the ....Quantum plasmas. Quantum effects become important under extreme conditions, and a newly developing field of "quantum plasmas" is motivated by two different extremes for ionized systems. One is in very small electronic devises, where electrons carrying the currents become wave-like with a wavelength comparable with the size of the device. The other is in the extremely intense optical light spots now available by focusing high-power lasers. In this project we propose to take a leading role in the development of this emerging field by applying a recently completed general theory to it. Read moreRead less
Atomic clocks, space-time variation of fundamental constants, violation of fundamental symmetries and tests of unification theories. The project will help to establish Australia among the leaders in important areas of modern science: tests of theories unifying all physical forces and cosmology, search for variation of the fundamental forces of Nature and making super precise atomic clocks. The atomic clocks are used in all navigation (current GPS and future Galileo) systems and many other import ....Atomic clocks, space-time variation of fundamental constants, violation of fundamental symmetries and tests of unification theories. The project will help to establish Australia among the leaders in important areas of modern science: tests of theories unifying all physical forces and cosmology, search for variation of the fundamental forces of Nature and making super precise atomic clocks. The atomic clocks are used in all navigation (current GPS and future Galileo) systems and many other important applications. The training of students and researchers combined with a rich international collaborative program will insure that Australia is well placed to prepare for the approaching revolution in physics and cosmology.Read moreRead less
Violation of fundamental symmetries and test of unification models. This project is devoted to a theoretical investigation of the atomic and nuclear effects of parity and time invariance violation. Measurements of these effects provide accurate tests of unification theories of elementary particles. Effects of weak interactions are normally very small, and we want to look for possibilities to enhance these effects. We also plan to search for new effects and tests of the unification theories an ....Violation of fundamental symmetries and test of unification models. This project is devoted to a theoretical investigation of the atomic and nuclear effects of parity and time invariance violation. Measurements of these effects provide accurate tests of unification theories of elementary particles. Effects of weak interactions are normally very small, and we want to look for possibilities to enhance these effects. We also plan to search for new effects and tests of the unification theories and develop accurate method of atomic calculations.Read moreRead less
Test of unification theories in atomic and nuclear phenomena. This project will help to establish Australia among the leaders in important areas of modern science: tests of models unifying all physical forces and search for variation of fundamental constants of Nature. It may help to create new theory unifying physics and cosmology, and may reveal hypothetical extra dimensions in our Universe, or many different sub-Universes. The training of students and researchers combined with a rich interna ....Test of unification theories in atomic and nuclear phenomena. This project will help to establish Australia among the leaders in important areas of modern science: tests of models unifying all physical forces and search for variation of fundamental constants of Nature. It may help to create new theory unifying physics and cosmology, and may reveal hypothetical extra dimensions in our Universe, or many different sub-Universes. The training of students and researchers combined with a rich international collaborative program will ensure that Australia is well-placed to prepare for the approaching revolution in physics and cosmology. Read moreRead less
Dynamics of Bursty Waves in Space and Astrophysics. Waves in space plasmas typically occur in bursts with widely variable fields and persist, with their driving particle distributions, for unexpectedly long times. These features cannot be accounted for with standard plasma theory but are explained naturally by stochastic growth theory (SGT). Recent observations show SGT to be widely applicable in space. We propose to make SGT fully quantitative, by studying the dynamical evolution to SGT in gene ....Dynamics of Bursty Waves in Space and Astrophysics. Waves in space plasmas typically occur in bursts with widely variable fields and persist, with their driving particle distributions, for unexpectedly long times. These features cannot be accounted for with standard plasma theory but are explained naturally by stochastic growth theory (SGT). Recent observations show SGT to be widely applicable in space. We propose to make SGT fully quantitative, by studying the dynamical evolution to SGT in general and in known SGT systems, and to develop and observationally test theories based on SGT and associated wave/radiation processes for major, long-unexplained radio phenomena in space and in astrophysics.
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