Fault-tolerant operation and scale-up of a silicon quantum computer beyond laboratory prototypes. The Centre for Quantum Computer Technology's mission is the construction of a prototype few-qubit silicon quantum processor to demonstrate the feasibility of this breakthrough technology for massively parallel computation. This application will initiate a new strategic research program within the Centre to address the key issue of interfacing laboratory with silicon CMOS microelectronics. The Hybrid ....Fault-tolerant operation and scale-up of a silicon quantum computer beyond laboratory prototypes. The Centre for Quantum Computer Technology's mission is the construction of a prototype few-qubit silicon quantum processor to demonstrate the feasibility of this breakthrough technology for massively parallel computation. This application will initiate a new strategic research program within the Centre to address the key issue of interfacing laboratory with silicon CMOS microelectronics. The Hybrid Quantum- Conventional Processor will provide calibrated gate control and readout of individual buried atom quantum bits,to run logic operations with quantum error correction. This program will require a deep understanding of physics issues to develop fault tolerant coherent control of qubit arrays for real applications.Read moreRead less
Nanoparticle from urban transport: Quantification of formation and dynamics for application for health and environmental risk reduction. Socio-economic benefits of the project outcomes to Australia: (i) advancing the fundamental understanding of the processes contributing to the adverse environmental impacts of nanoparticles; (ii) provision of vital information on the reduction of the environmental and health risks of nanoparticles, thus contributing to the goal of 'cleaner, safer combustion'; ( ....Nanoparticle from urban transport: Quantification of formation and dynamics for application for health and environmental risk reduction. Socio-economic benefits of the project outcomes to Australia: (i) advancing the fundamental understanding of the processes contributing to the adverse environmental impacts of nanoparticles; (ii) provision of vital information on the reduction of the environmental and health risks of nanoparticles, thus contributing to the goal of 'cleaner, safer combustion'; (iii) placing Australian researchers in the frontline of nanoparticle science and technology and international progress towards sustainable development; and (iv) lowering of human exposure to nanoparticles in the cities of tomorrow, thus reducing health care costs and lost productivity. Read moreRead less
Quantification of current and future traffic emissions of greenhouse gases and particulate matter for application in transport and urban planning. The socio-economic benefits from the project include (i) novel transport emissions model, enabling assessment of the impact of transport proposals, applied in one of the most rapidly developing urban regions of Australia, SEQ; (ii) a matrix of particles, CO2, N2O and CH4 emission factors for vehicles operating in Australia, an essential input paramete ....Quantification of current and future traffic emissions of greenhouse gases and particulate matter for application in transport and urban planning. The socio-economic benefits from the project include (i) novel transport emissions model, enabling assessment of the impact of transport proposals, applied in one of the most rapidly developing urban regions of Australia, SEQ; (ii) a matrix of particles, CO2, N2O and CH4 emission factors for vehicles operating in Australia, an essential input parameter in vehicle emission inventories. The ultimate economic benefit of this research will be a reduction in transport related air pollution and greenhouse emissions, thus increasing the health and well-being of Australians, reducing health care costs and placing Australia in the forefront of international progress in the race toward better methods for achieving environmental sustainability.Read moreRead less
QUANTIFICATION OF INTERACTIONS DURING THE DISPERSION OF CORONA IONS AND AIRBORNE PARTICLES NEAR POWER LINES. Currently there is no method for quantification of concentration and dispersion of charged aerosols near high voltage power lines (HVPLs). However, hypothesis have been presented, but not yet proven scientifically, that residents of houses close to combustion sources such as highways or industrial plants and HVPLs may be subjected to health risk due to inhalation of charged aerosols. The ....QUANTIFICATION OF INTERACTIONS DURING THE DISPERSION OF CORONA IONS AND AIRBORNE PARTICLES NEAR POWER LINES. Currently there is no method for quantification of concentration and dispersion of charged aerosols near high voltage power lines (HVPLs). However, hypothesis have been presented, but not yet proven scientifically, that residents of houses close to combustion sources such as highways or industrial plants and HVPLs may be subjected to health risk due to inhalation of charged aerosols. The outcome of this project will be a model for quantitative assessment of the processes occurring during the transport and dispersion of corona ions and combustion aerosol, which will be a tool for predictive risk assessment and informed management of public resources in relation to power line design and maintenance.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL0992016
Funder
Australian Research Council
Funding Amount
$2,064,351.00
Summary
Frontiers of Precision Time and Frequency. Devices for precise frequency and time metrology invented at the University of Western Australia have application in telecommunications, advanced radar, optical to microwave links, frequency and time standards, astronomy, tests of fundamental physics and have attracted worldwide interest. This project will strengthen Australian "know how" and expertise, and place us in a position to participate in current and future space missions. Moreover, this repres ....Frontiers of Precision Time and Frequency. Devices for precise frequency and time metrology invented at the University of Western Australia have application in telecommunications, advanced radar, optical to microwave links, frequency and time standards, astronomy, tests of fundamental physics and have attracted worldwide interest. This project will strengthen Australian "know how" and expertise, and place us in a position to participate in current and future space missions. Moreover, this represents an opportunity for high profile involvement as the only southern hemisphere user of the most accurate space clock ever developed, which will likely involve the order of 30 institutes worldwide. This work necessarily includes collaboration with the world's elite metrological institutes.Read moreRead less
Characterising Nuclei Far from Stability With a Novel Recoil Spectrometer. A high sensitivity detector system for use in conjuction with a superconducting solenoidal transporter will be developed for gamma-ray and conversion spectroscopy of neutron-deficient nuclei. The technology will be optimised for near-symmetric heavy ion reactions and applied initially to the characterisation of shape co-existence in the light lead isotopes. These provide a major testing ground for the development of mean- ....Characterising Nuclei Far from Stability With a Novel Recoil Spectrometer. A high sensitivity detector system for use in conjuction with a superconducting solenoidal transporter will be developed for gamma-ray and conversion spectroscopy of neutron-deficient nuclei. The technology will be optimised for near-symmetric heavy ion reactions and applied initially to the characterisation of shape co-existence in the light lead isotopes. These provide a major testing ground for the development of mean-field theories used to predict the stability of heavy nuclei.Read moreRead less
Mechanisms of virus transport in indoor environments. The socio-economic benefits to Australia from the project will include the developed and validated model for quantification of virus spread and survival through aerosolation processes, which will become an important tool for: (i) prediction of the pathways of virus spread in indoor environment, and (ii) developing future directions for management and control for prevention or minimization the likelihood of human infections. The ultimate econo ....Mechanisms of virus transport in indoor environments. The socio-economic benefits to Australia from the project will include the developed and validated model for quantification of virus spread and survival through aerosolation processes, which will become an important tool for: (i) prediction of the pathways of virus spread in indoor environment, and (ii) developing future directions for management and control for prevention or minimization the likelihood of human infections. The ultimate economic benefit of this research will be reduction in health care costs and lost productivity. The research will also place Australia in the forefront of international progress and race towards toward better methods for virus spread prevention. Read moreRead less
Development and validation of a model predicting charged aerosol characteristics in the proximity to high voltage powerlines. With over 780,000 km length of High Voltage Power Lines running through different parts of the country, the scientific and socio-economic benefits to Australia and worldwide include: (i) The developed novel semi-empirical model would become an important tool for research on human exposure and health effects in the vicinity of powerlines and vehicle transport routs, and fo ....Development and validation of a model predicting charged aerosol characteristics in the proximity to high voltage powerlines. With over 780,000 km length of High Voltage Power Lines running through different parts of the country, the scientific and socio-economic benefits to Australia and worldwide include: (i) The developed novel semi-empirical model would become an important tool for research on human exposure and health effects in the vicinity of powerlines and vehicle transport routs, and for developing future directions for management and control strategies for transport and land development plans; (ii) The ultimate benefit of this research will be reduction of risks and thus increase in health and well-being of Australians and reduction in health care costs. Read moreRead less
Developing New Clocks for Australia: Testing the Assumptions of Modern Physics. Clocks lie at the heart of all precise measurement devices; for example, they are the crucial elements in modern navigation and telecommunications systems. This project will develop three new clocks for Australia: a laser clock at the leading edge of technology, a novel and compact clock with commercial potential, and a microwave clock for use in the next generation of satellites. The performance advantage conferre ....Developing New Clocks for Australia: Testing the Assumptions of Modern Physics. Clocks lie at the heart of all precise measurement devices; for example, they are the crucial elements in modern navigation and telecommunications systems. This project will develop three new clocks for Australia: a laser clock at the leading edge of technology, a novel and compact clock with commercial potential, and a microwave clock for use in the next generation of satellites. The performance advantage conferred by our new devices can deliver economic benefits while also giving the possibility for scrutinizing the laws of physics for evidence that there is something beyond our present formulation.Read moreRead less
Closing the Future: New Foundations for the Physics of Possibility. The distinction between a fixed and an open future is deeply embedded in human thought, and also central to some of the most profound puzzles in contemporary physics. By revealing the human origins of out fundamental concepts of possibility in time, this project will enhance our understanding of one of the most basic features of our experience of the world, lay foundations for a new treatment of time and possibility in foundame ....Closing the Future: New Foundations for the Physics of Possibility. The distinction between a fixed and an open future is deeply embedded in human thought, and also central to some of the most profound puzzles in contemporary physics. By revealing the human origins of out fundamental concepts of possibility in time, this project will enhance our understanding of one of the most basic features of our experience of the world, lay foundations for a new treatment of time and possibility in foundamental physics, and throw important new light on the mysteries of the quantum world.Read moreRead less