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
The New Atom Laser: Theory of Quantum Atom Optical Sources. The atom laser is a new device which produces a coherent source of ultracold atoms. A practical atom laser will be a revolutionary source for atom optics. This project will develop a comprehensive and practical quantum theory of a new generation of atom lasers which can produce a continuous beam. This will require a different and more complicated theoretical approach to that which worked for optical lasers, but the result will be a d ....The New Atom Laser: Theory of Quantum Atom Optical Sources. The atom laser is a new device which produces a coherent source of ultracold atoms. A practical atom laser will be a revolutionary source for atom optics. This project will develop a comprehensive and practical quantum theory of a new generation of atom lasers which can produce a continuous beam. This will require a different and more complicated theoretical approach to that which worked for optical lasers, but the result will be a device with a spectral flux which is orders of magnitude better than the current state of the art.Read moreRead less
Superfluidity and metrology with ring shaped Bose-Einstein condensates. This proposal will answer a fundamental question about superfluidity, expanding our understanding of quantum many-particle systems. Australia excels in the fields of ultra-cold gases and quantum physics, and this proposal will further strengthen our international standing in these flagship areas of modern physics. The project will train a number of students in high-level technology and computing skills that are in high deman ....Superfluidity and metrology with ring shaped Bose-Einstein condensates. This proposal will answer a fundamental question about superfluidity, expanding our understanding of quantum many-particle systems. Australia excels in the fields of ultra-cold gases and quantum physics, and this proposal will further strengthen our international standing in these flagship areas of modern physics. The project will train a number of students in high-level technology and computing skills that are in high demand in our growing knowledge-based economy. Improved understanding of how Bose-Einstein condensates behave will assist in their development as sensitive measurement devices, with possible intellectual property benefits in the future as we learn to tame these unique systems.Read moreRead less
Multiple atomic photoionization in superstrong electromagnetic field. Correlation, or entanglement, of electrons in matter governs many important phenomena in nature, such as chemical reactions, superconductivity and ferromagnetism. However, it is the many-electron processes in atoms which allow the study of electron correlations most clearly. In this project we will investigate such a process of two-electron atomic photoionization by an intense laser pulse. We will combine advanced theoretical ....Multiple atomic photoionization in superstrong electromagnetic field. Correlation, or entanglement, of electrons in matter governs many important phenomena in nature, such as chemical reactions, superconductivity and ferromagnetism. However, it is the many-electron processes in atoms which allow the study of electron correlations most clearly. In this project we will investigate such a process of two-electron atomic photoionization by an intense laser pulse. We will combine advanced theoretical and experimental tools with the aim of understanding how the electron correlation interplays with the superstrong electromagnetic field. This will provide insight into fundamental processes of interaction of intense laser pulses with matter which are important in a wide range of applications.Read moreRead less
Quantum Simulations with Dilute Gas Bose Einstein Condensates. Fundamental scientific research, such as we propose, is an important contributor to the long term wealth and well being of the Nation. It shapes our culture, our ways of thinking, and our beliefs. It also contributes directly, and in the shorter term, through the technology development that accompanies scientific research at the frontiers of knowledge. The students participating in this research will develop skills in innovation, int ....Quantum Simulations with Dilute Gas Bose Einstein Condensates. Fundamental scientific research, such as we propose, is an important contributor to the long term wealth and well being of the Nation. It shapes our culture, our ways of thinking, and our beliefs. It also contributes directly, and in the shorter term, through the technology development that accompanies scientific research at the frontiers of knowledge. The students participating in this research will develop skills in innovation, intellectual property management, and commercialisation - all of which are critical to the Nation's future.Read moreRead less
Solid Light: Frontiers and applications of solid-state Cavity Quantum Electro-Dynamics. Our understanding of quantum mechanics directly fuels new technology. We are on the verge of a new revolution in technology, where the aspects of quantum physics that we haven't been able to understand are now within technological reach. Our concept of solid-light joins two of the most important branches of physics, and in so doing develops a new technology of diamond-based quantum processors that will be b ....Solid Light: Frontiers and applications of solid-state Cavity Quantum Electro-Dynamics. Our understanding of quantum mechanics directly fuels new technology. We are on the verge of a new revolution in technology, where the aspects of quantum physics that we haven't been able to understand are now within technological reach. Our concept of solid-light joins two of the most important branches of physics, and in so doing develops a new technology of diamond-based quantum processors that will be built in Australia. This will benefit the Australian scientific community by providing devices to solve important quantum problems, and benefit the wider community by growing a new industry based around diamond quantum nanoscience.Read moreRead less
Multiple ionization of atoms and molecules in strong laser fields. Our research contributes to multidisciplinary efforts to unravel the
fundamental mechanisms that govern interaction of intense laser
radiation with matter. Understanding and accurate numerical modelling
of such preocesses have far-reaching implications for astrophysics,
plasma physics and controlled fusion, life and materials sciences. The
research project will further enhance our reputation in an area where
Australian the ....Multiple ionization of atoms and molecules in strong laser fields. Our research contributes to multidisciplinary efforts to unravel the
fundamental mechanisms that govern interaction of intense laser
radiation with matter. Understanding and accurate numerical modelling
of such preocesses have far-reaching implications for astrophysics,
plasma physics and controlled fusion, life and materials sciences. The
research project will further enhance our reputation in an area where
Australian theorists are preeminent, and the research training will
produce PhD graduates with a high-level ability in numerical modelling
using supercomputers. Such skills are essential in many defense,
information and nano-technology applications of national priority.
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Fundamental tests of Quantum Mechanics with the Atom Laser. This is high profile scientific research that is important to Australia's standing in the world scientific community. Atom optics was singled out as a key area of Australian science through the formation of the ARC Centre for Quantum Atom Optics in 2003, and is in the Breakthrough Science category of the Frontier Technologies priority funding area. The experimental schemes developed in this proposal contribute to the already strong expe ....Fundamental tests of Quantum Mechanics with the Atom Laser. This is high profile scientific research that is important to Australia's standing in the world scientific community. Atom optics was singled out as a key area of Australian science through the formation of the ARC Centre for Quantum Atom Optics in 2003, and is in the Breakthrough Science category of the Frontier Technologies priority funding area. The experimental schemes developed in this proposal contribute to the already strong experimental atom optics research in Australia. In order to remain at the forefront of fundamental physics research, Australia must maintain a world-class research effort in this area. Read moreRead less
Dynamics of multi-component matter waves. The recent observation of Bose-Einstein condensation (BEC) in weakly interacting ultracold gases has opened the door to the field of coherent matter-wave optics. When the BEC is treated within a mean-field approach the equations resemble those for the propagation of light in nonlinear media. The main aim of this project is to bring our broad and deep nonlinear optical expertise to bare on the classical nonlinear dynamics of multi-component BEC like syste ....Dynamics of multi-component matter waves. The recent observation of Bose-Einstein condensation (BEC) in weakly interacting ultracold gases has opened the door to the field of coherent matter-wave optics. When the BEC is treated within a mean-field approach the equations resemble those for the propagation of light in nonlinear media. The main aim of this project is to bring our broad and deep nonlinear optical expertise to bare on the classical nonlinear dynamics of multi-component BEC like systems. The expected outcome is a position of world leadership in the theoretical understanding of the dynamics of atom lasers, mixed atom-molecule BECs, and fragmented BECs in optical lattices.Read moreRead less
Quantum dynamics of solid-state qubits. The primary aim of this project is to carry out a critical assessment of several solid-state qubit systems and quantum logic gate operations through detailed theoretical calculations. This project will address important issues such as precise control of electron flux and spin interactions, optimal operating conditions, errors due to imperfection in the system and possible mechanisms for error elimination, as well as reliable measurements of the output qubi ....Quantum dynamics of solid-state qubits. The primary aim of this project is to carry out a critical assessment of several solid-state qubit systems and quantum logic gate operations through detailed theoretical calculations. This project will address important issues such as precise control of electron flux and spin interactions, optimal operating conditions, errors due to imperfection in the system and possible mechanisms for error elimination, as well as reliable measurements of the output qubit register. In addition, qubit systems have shown themselves to be tiny laboratories in which fundamental concepts in quantum mechanics can be tested and a new regime of physics can be learnt.Read moreRead less