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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561104
Funder
Australian Research Council
Funding Amount
$402,128.00
Summary
A 10 Gbit/s Fibre Optic link to the Mt Pleasant and Mt Canopus Observatories. A 10 gigabit per second fibre optic link to the Mt Pleasant and Mt Canopus observatories will enable a wide range of new and exciting research opportunities. Very long baseline interferometry (VLBI) allows imaging of distant astronomical objects with much higher resolution than any other technique. The proposed fibre optic link will revolutionise Australia's VLBI capability, giving it the world's most sensitive array, ....A 10 Gbit/s Fibre Optic link to the Mt Pleasant and Mt Canopus Observatories. A 10 gigabit per second fibre optic link to the Mt Pleasant and Mt Canopus observatories will enable a wide range of new and exciting research opportunities. Very long baseline interferometry (VLBI) allows imaging of distant astronomical objects with much higher resolution than any other technique. The proposed fibre optic link will revolutionise Australia's VLBI capability, giving it the world's most sensitive array, with enhanced reliability and faster access to results for researchers. This project will greatly facilitate studies of astrophysical processes in Galactic and extra-galactic environments as well as precision measurements of the Earth's crustal dynamics.Read moreRead less
Redefining Temperature. The international system of units, which is at the basis of every accurate measurement, requires coherent definitions for its basic units (eg. metre, second, kelvin). Unfortunately, at the moment this is not so, and a global call has gone out to redefine every basic unit in terms of fundamental constants, which are by definition the same anywhere and anytime. This project will develop a new laser-based approach to measuring temperature which can be widely deployed and us ....Redefining Temperature. The international system of units, which is at the basis of every accurate measurement, requires coherent definitions for its basic units (eg. metre, second, kelvin). Unfortunately, at the moment this is not so, and a global call has gone out to redefine every basic unit in terms of fundamental constants, which are by definition the same anywhere and anytime. This project will develop a new laser-based approach to measuring temperature which can be widely deployed and uses fundamental principles for its operation: this can bring accuracy to thermometry in industry for the first time. These outcomes will generate high-level recognition for this Australian project and provide opportunities for high level research training.Read moreRead less
Magnetic and electric field tuneable magnetic heterostructures. Australian science and technology will be a leading participant in the creation of a new, useful magneto-electric composite material whose properties arise from careful atomic level design. This goal has been long sought after, and only recently come within reach. Recent proof-of-concept demonstrations have inspired an explosion of activity on a global scale together with intensive searches for additional examples of useful materia ....Magnetic and electric field tuneable magnetic heterostructures. Australian science and technology will be a leading participant in the creation of a new, useful magneto-electric composite material whose properties arise from careful atomic level design. This goal has been long sought after, and only recently come within reach. Recent proof-of-concept demonstrations have inspired an explosion of activity on a global scale together with intensive searches for additional examples of useful material combinations. In this project, young Australian scientists and research students will have opportunities to receive training and become involved in a National Priority Frontier Technology rich in possibilities for generation of intellectual property.Read moreRead less
Memory effects in magnetic metals: origin, utility and control in magnetoelectronics using layered nanopatterns. The work is in the important area of magneto-electronics, a field recognised by the 2007 Nobel Prize awarded in Physics. Training opportunities for Honours and postgraduate students will be provided at the forefront of this high profile area, thereby expanding Australian knowledge base and capability. New opportunities for interaction between several groups in Australia will be create ....Memory effects in magnetic metals: origin, utility and control in magnetoelectronics using layered nanopatterns. The work is in the important area of magneto-electronics, a field recognised by the 2007 Nobel Prize awarded in Physics. Training opportunities for Honours and postgraduate students will be provided at the forefront of this high profile area, thereby expanding Australian knowledge base and capability. New opportunities for interaction between several groups in Australia will be created. The projects will involve PhD students shared between Australian institutions and collaborating groups overseas, thereby cementing collaborations while simultaneously providing unique training environments. The project will use and support activities associated with the Australian major facilities. Read moreRead less
The astrophysical stochastic background of gravitational waves and detection by advanced high optical power interferometers: an Australia-US collaboration. The proposed project is designed to enable one of the most exciting and least studied components of the gravitational wave spectrum, the Astrophysical Gravitational wave Background (AGB), to be detected by Advanced LIGO. It will extend the Australia-US collaboration in Advanced LIGO to include modeling, simulation and detection methods of the ....The astrophysical stochastic background of gravitational waves and detection by advanced high optical power interferometers: an Australia-US collaboration. The proposed project is designed to enable one of the most exciting and least studied components of the gravitational wave spectrum, the Astrophysical Gravitational wave Background (AGB), to be detected by Advanced LIGO. It will extend the Australia-US collaboration in Advanced LIGO to include modeling, simulation and detection methods of the AGB and the study of the optical noise in LIGO and Advanced LIGO type systems. In particular we plan to search for anomalous noise sources and, especially those arising in high optical power cavities that could limit detection of the AGB.Read moreRead less
International partnership in robotic astronomy and gravitational wave data analysis using a supercomputer. The project is aimed at providing student participation in frontier research using robotic astronomy and novel data analysis methods. It will focus on the study of the most violent explosions in the Universe - cosmological gamma ray bursts. These cataclysmic events possibly herald the formation of the most exotic objects in the Universe - black holes. It provides an exciting opportunity for ....International partnership in robotic astronomy and gravitational wave data analysis using a supercomputer. The project is aimed at providing student participation in frontier research using robotic astronomy and novel data analysis methods. It will focus on the study of the most violent explosions in the Universe - cosmological gamma ray bursts. These cataclysmic events possibly herald the formation of the most exotic objects in the Universe - black holes. It provides an exciting opportunity for students to be trained in robotic astronomy, supercomputing, image analysis and signal processing.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775621
Funder
Australian Research Council
Funding Amount
$494,000.00
Summary
Mileura Widefield Array: A New Low Frequency Telescope. A new radio-quiet site for international radio astronomy is being developed at Mileura in Western Australia. We have constructed a low frequency test array on the site, and established that the site is excellent for radio astronomy. We plan to build a telescope which will observe the early universe, when stars and galaxies where first born. This will be the first telescope capable of this type of measurement of the early universe. In addi ....Mileura Widefield Array: A New Low Frequency Telescope. A new radio-quiet site for international radio astronomy is being developed at Mileura in Western Australia. We have constructed a low frequency test array on the site, and established that the site is excellent for radio astronomy. We plan to build a telescope which will observe the early universe, when stars and galaxies where first born. This will be the first telescope capable of this type of measurement of the early universe. In addition, the telescope will measure the solar wind, and its potential interactions with the earth.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882938
Funder
Australian Research Council
Funding Amount
$1,430,000.00
Summary
MIRA Widefield Array: a new low frequency telescope. A new radio-quiet site for international radio astronomy is being developed at Boolardy in Western Australia. We have constructed a low frequency test array on the site, and established that the site is excellent for radio astronomy. We plan to build a telescope which will observe the early universe, when stars and galaxies where first born. This will be the first telescope capable of this type of measurement of the early universe. In additi ....MIRA Widefield Array: a new low frequency telescope. A new radio-quiet site for international radio astronomy is being developed at Boolardy in Western Australia. We have constructed a low frequency test array on the site, and established that the site is excellent for radio astronomy. We plan to build a telescope which will observe the early universe, when stars and galaxies where first born. This will be the first telescope capable of this type of measurement of the early universe. In addition, the telescope will measure the solar wind, and its potential interactions with the Earth. Read moreRead less
Simulating the Magellanic system using new special-purpose computers for gravitational dynamics. Australia is renowned for its significant contribution to great progress in observational studies of the Large and the Small Magellanic Clouds. The proposed state-of-the-art computer simulations will provide new and better understanding of the Magellanic Clouds and thus stimulate public interest, in particular, the next generation of Australian scientists. The extensive comparison between results fro ....Simulating the Magellanic system using new special-purpose computers for gravitational dynamics. Australia is renowned for its significant contribution to great progress in observational studies of the Large and the Small Magellanic Clouds. The proposed state-of-the-art computer simulations will provide new and better understanding of the Magellanic Clouds and thus stimulate public interest, in particular, the next generation of Australian scientists. The extensive comparison between results from fastest computers and world-class telescopes will make important breakthroughs in the areas of computational astrophysics and extragalactic astronomy and thus inspire many scientists and engineers in other fields.Read moreRead less
Creation of New Precision Optical and Microwave Technologies and their Application to Testing the Fundamental of Physics. Clocks and oscillators are crucial for the highest precision scientific and industrial measurements and are the foundation of modern communications technology. Recent developments in laser-cooled optical clocks promise a wave of revolutionary changes to global navigation, timekeeping and precision measurement. Our group has already achieved world's-best performance in this f ....Creation of New Precision Optical and Microwave Technologies and their Application to Testing the Fundamental of Physics. Clocks and oscillators are crucial for the highest precision scientific and industrial measurements and are the foundation of modern communications technology. Recent developments in laser-cooled optical clocks promise a wave of revolutionary changes to global navigation, timekeeping and precision measurement. Our group has already achieved world's-best performance in this field. To stay at the forefront of this wave we propose a broad-ranging program of research aimed at:
- new clocks of 100 times higher performance than any existing clock,
- development of extremely low noise photonic oscillators,
- the application of these new technologies to test the foundations of Physics, including involvement in a space-based experiment.
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