Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100014
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
VeloceCal: Hyper-Calibrating Australia's Planet Foundry. VeloceCal: hyper-calibrating Australia's planet foundry:
VeloceCal aims to deliver a hyper-calibration capability to Australia's premier high-resolution optical spectrograph, such that instrumental drifts will make an insignificant contribution to the system's Doppler velocity measurement capabilities. This would transform Australian capabilities for the measurement of masses (and so densities) for the lowest mass planets which will be em ....VeloceCal: Hyper-Calibrating Australia's Planet Foundry. VeloceCal: hyper-calibrating Australia's planet foundry:
VeloceCal aims to deliver a hyper-calibration capability to Australia's premier high-resolution optical spectrograph, such that instrumental drifts will make an insignificant contribution to the system's Doppler velocity measurement capabilities. This would transform Australian capabilities for the measurement of masses (and so densities) for the lowest mass planets which will be emerging from NASA's next-generation Transiting Exoplanet Survey Satellite (TESS) from 2017 onwards. VeloceCal would play a pivotal role in determining whether the smallest planets found by TESS are terrestrial (like the Earth) or icy (like Neptune), and in unambiguously discovering terrestrial planets orbiting low-mass stars in habitable orbits.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100052
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
TAIPAN - a spectrograph to survey the southern sky. TAIPAN - a spectrograph to survey the southern sky: The TAIPAN spectroscopic survey of the southern sky aims to quadruple the number of nearby galaxies with measured redshifts, distances and velocities. Science goals include measuring the expansion rate of the universe to 1 per cent precision, and combining optical spectroscopy and radio data for each galaxy to measure the rate at which gas is being converted into stars in the local universe. T ....TAIPAN - a spectrograph to survey the southern sky. TAIPAN - a spectrograph to survey the southern sky: The TAIPAN spectroscopic survey of the southern sky aims to quadruple the number of nearby galaxies with measured redshifts, distances and velocities. Science goals include measuring the expansion rate of the universe to 1 per cent precision, and combining optical spectroscopy and radio data for each galaxy to measure the rate at which gas is being converted into stars in the local universe. This project supports construction of the TAIPAN high-performance spectrograph that will be used to carry out the survey on the UK Schmidt Telescope (UKST). The results of the survey will be made freely available to all Australian astronomers.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100104
Funder
Australian Research Council
Funding Amount
$740,000.00
Summary
Mapping the universe with the Panoramic Survey Telescope and Rapid Response System (PanSTARRS). This project plans to build a powerful new observatory, Panoramic Survey Telescope and Rapid Response System (PanSTARRS-2), to be located in Hawaii. PanSTARRS-2 will have an enormous fish-eye-lens view of the northern stars, which we will combine with Australian telescopes to give a unique view of the entire sky. Australian scientists will use this data to solve fundamental problems in astrophysics an ....Mapping the universe with the Panoramic Survey Telescope and Rapid Response System (PanSTARRS). This project plans to build a powerful new observatory, Panoramic Survey Telescope and Rapid Response System (PanSTARRS-2), to be located in Hawaii. PanSTARRS-2 will have an enormous fish-eye-lens view of the northern stars, which we will combine with Australian telescopes to give a unique view of the entire sky. Australian scientists will use this data to solve fundamental problems in astrophysics and cosmology.Read moreRead less
ARC Centre of Excellence for All-sky Astrophysics. The ARC Centre of Excellence for All-sky Astrophysics (CAASTRO) will establish Australia as a world-leader in the emerging discipline of wide-field astronomy. CAASTRO will answer fundamental questions about the nature of the Universe, develop innovative ways of processing enormous data-sets, and enable a diverse set of opportunities for students and early career researchers. By bringing Australia's top astronomers together into a focused collabo ....ARC Centre of Excellence for All-sky Astrophysics. The ARC Centre of Excellence for All-sky Astrophysics (CAASTRO) will establish Australia as a world-leader in the emerging discipline of wide-field astronomy. CAASTRO will answer fundamental questions about the nature of the Universe, develop innovative ways of processing enormous data-sets, and enable a diverse set of opportunities for students and early career researchers. By bringing Australia's top astronomers together into a focused collaboration, CAASTRO will cement Australia's reputation as an international leader in astrophysical research, will build unique expertise in wide-field radio and optical astronomy and will position Australia to lead the science programmes planned for the Square Kilometre Array.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882778
Funder
Australian Research Council
Funding Amount
$201,224.00
Summary
Water vapour radiometers for millimetre-wave phase correction for the Australia Telescope. Australia has a tradition of excellence in astronomy. Inspired by wonder about the cosmos, it stimulates public interest in science, so leading to the training of highly skilled graduates. In turn, this drives the development of technologies needed to pursue the science. The nation has invested in the technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. This equipm ....Water vapour radiometers for millimetre-wave phase correction for the Australia Telescope. Australia has a tradition of excellence in astronomy. Inspired by wonder about the cosmos, it stimulates public interest in science, so leading to the training of highly skilled graduates. In turn, this drives the development of technologies needed to pursue the science. The nation has invested in the technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. This equipment will capitalise on this investment, extending the capabilities of the Australia Telescope to maintain it as a front line instrument, attracting the best scientists here to use it. This will help nurture a vigorous radio-science community, one able to actively participate in the billion-dollar investment being made internationally in the field.Read moreRead less
Utilising artificial intelligence to elucidate the physics of galaxies. For decades astronomers have puzzled over the connection between the structure and evolution of galaxies and the role played by host environments. This project aims to resolve this problem by combining multi-wavelength observations, multi-component simulations, and pioneering data analysis using artificial intelligence. In particular, we target the nearby Fornax galaxy cluster as a laboratory for studying galaxy formation in ....Utilising artificial intelligence to elucidate the physics of galaxies. For decades astronomers have puzzled over the connection between the structure and evolution of galaxies and the role played by host environments. This project aims to resolve this problem by combining multi-wavelength observations, multi-component simulations, and pioneering data analysis using artificial intelligence. In particular, we target the nearby Fornax galaxy cluster as a laboratory for studying galaxy formation in dense environments. Using our novel machine learning techniques, we will elucidate the physical mechanisms that drive the rapid evolution of star formation, galactic nuclei, and gas and dust content within Fornax. Our predictions will benefit ongoing and future surveys at the national and international level. Read moreRead less
In Search of New Gravity: testing advanced theories of gravity with cosmological data. The most startling discovery in cosmology in the last few decades has been that the Universe is accelerating. This remarkable fact indicates that our theory of gravity may need revision. Our current theory, Einstein’s theory of General Relativity, stands up in our solar system. If this theory breaks down on large scales, leading to the accelerating expansion, there must be some ‘cross-over’ scale where the the ....In Search of New Gravity: testing advanced theories of gravity with cosmological data. The most startling discovery in cosmology in the last few decades has been that the Universe is accelerating. This remarkable fact indicates that our theory of gravity may need revision. Our current theory, Einstein’s theory of General Relativity, stands up in our solar system. If this theory breaks down on large scales, leading to the accelerating expansion, there must be some ‘cross-over’ scale where the theory changes. This project will make theoretical predictions for those models that contain a cross-over and test them against current data for current and upcoming Australian cosmological surveys. It will determine if our current theory of gravity is a satisfactory theory, and if it is not, which new theory should replace it.Read moreRead less
Mapping the dark matter with early type galaxies. Unidentified dark matter outweighs luminous matter (stars, gas, and galaxies) by several times and is detected by its gravitational effects in the Universe. The Six Degree Field Galaxy Survey is now complete and this project will prepare a larger survey, which will put the team clearly in the lead in understanding the distribution of dark matter.