Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100164
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
GNOSIS: a new window on the early universe using revolutionary photonic technology. Australian astronomers have a long history in innovative instrumentation and are some of the early pioneers in infrared astronomy. The GNOSIS project brings together leading Australian astronomers to build on past success. This facility instrument makes use of recent technological advances in photonics—a key strength of Australian research and industry—to provide a dramatic improvement in observational sensitivit ....GNOSIS: a new window on the early universe using revolutionary photonic technology. Australian astronomers have a long history in innovative instrumentation and are some of the early pioneers in infrared astronomy. The GNOSIS project brings together leading Australian astronomers to build on past success. This facility instrument makes use of recent technological advances in photonics—a key strength of Australian research and industry—to provide a dramatic improvement in observational sensitivity at these wavelengths. This will allow Australian astronomers to carry out new science programmes that have not been possible to date. These programmes include unprecedented observations of very cool low mass stars, the first chemical information on dust-embedded star clusters, and accurate ages for distant galaxies.Read moreRead less
The Evolution of Gas in Galaxy Groups. The evolution of gas in galaxy groups is poorly understood, but is crucial to understanding galaxy evolution. This project provides a training opportunity for a talented postdoc to conduct the first `multiwavelength census' of southern galaxy groups, perform simulations and make predictions of group properties at early times. We will better understand the evolutionary processes in groups and provide a `local anchor' for future surveys. The knowledge gained ....The Evolution of Gas in Galaxy Groups. The evolution of gas in galaxy groups is poorly understood, but is crucial to understanding galaxy evolution. This project provides a training opportunity for a talented postdoc to conduct the first `multiwavelength census' of southern galaxy groups, perform simulations and make predictions of group properties at early times. We will better understand the evolutionary processes in groups and provide a `local anchor' for future surveys. The knowledge gained will feed directly into the design of the future Square Kilometre Array, and raise Australia's profile in this $1B project. We exploit Australia's best astronomical facilities, and establish a new University-CSIRO collaboration.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0236657
Funder
Australian Research Council
Funding Amount
$210,000.00
Summary
Renewed Great Melbourne Telescope: Opening a Window on the Universe. We propose to refurbish the Great Melbourne Telescope (GMT) located at Mount Stromlo Observatory with a new state-of-the-art imager. This instrument will be available to the entire Australian Astronomical community, and will allow Australian researchers to undertake cutting edge research with this world leading two colour wide field imager. A fully automated observing and data reduction pipeline, a world first for a telescope o ....Renewed Great Melbourne Telescope: Opening a Window on the Universe. We propose to refurbish the Great Melbourne Telescope (GMT) located at Mount Stromlo Observatory with a new state-of-the-art imager. This instrument will be available to the entire Australian Astronomical community, and will allow Australian researchers to undertake cutting edge research with this world leading two colour wide field imager. A fully automated observing and data reduction pipeline, a world first for a telescope of this size, means astronomers can work on their data, analyzing everything from the Solar System, to the most distant objects in the Universe, rather than spending night after night at the telescope.Read moreRead less
Illuminating the Universe with Exploding Stars. We are using Exploding Stars (Supernovae and Gamma Ray Bursts) to measure fundamental properties of the Universe. We use Type Ia Supernovaeto trace the Expansion History of the Universe and learn about the nature of the Dark Energy which currently dominates the Universe. We use Gamma Ray Bursts to illuminate the gas in and around galaxies to measure the chemical composition and structure of the Early Universe.
Radio Interferometer Studies of Compact Astronomical Sources. The giant black holes in the centres of distant galaxies that are the topic of this study are used to set the reference frame for geodesy on the earth. Remote and exotic as they are, they have real-world applications such as improving the positions available from GPS receivers and measuring continental drift. The signal processing equipment being developed for this new telescope is based on FPGA (field programmable gate array) chips ....Radio Interferometer Studies of Compact Astronomical Sources. The giant black holes in the centres of distant galaxies that are the topic of this study are used to set the reference frame for geodesy on the earth. Remote and exotic as they are, they have real-world applications such as improving the positions available from GPS receivers and measuring continental drift. The signal processing equipment being developed for this new telescope is based on FPGA (field programmable gate array) chips, that promise to revolutionize the data processing industry, from radar to cellular telephones to computer networks. The young scientists who are working on this project will go on to lead the commercial and industrial applications of this new technology.Read moreRead less
The Science of Exoplanets - Finding & Understanding our Planetary Neighbours. There can be few questions more fundamental to humanity, and more capable of engaging young Australians in science and technology, than to ask "Are we alone in the Universe?". The discovery of planetary systems orbiting other stars now enables us to realistically address this fundamental question in the years ahead. A critical component of this global endeavour will be determining 'How common are Earth-like planets orb ....The Science of Exoplanets - Finding & Understanding our Planetary Neighbours. There can be few questions more fundamental to humanity, and more capable of engaging young Australians in science and technology, than to ask "Are we alone in the Universe?". The discovery of planetary systems orbiting other stars now enables us to realistically address this fundamental question in the years ahead. A critical component of this global endeavour will be determining 'How common are Earth-like planets orbiting nearby stars?'. This project will establish the nation's leading research group in this field and employ the world's leading astronomical facilities to place Australia at the forefront of the international race to answer these fundamental questions. Read moreRead less
From Nanosecond Timing to Nanohertz Gravitational Wave Detection. Radio pulsars are the collapsed cores of once-massive stars that are renowned for their exceptional rotational stability. Ever since their discovery Australia has played a prominent role in the discovery and monitoring of these enigmatic sources. The timing and discovery of millisecond pulsars is an area where Australia is a world leader. This programme will use a powerful new instrument on the Parkes radio telescope to search for ....From Nanosecond Timing to Nanohertz Gravitational Wave Detection. Radio pulsars are the collapsed cores of once-massive stars that are renowned for their exceptional rotational stability. Ever since their discovery Australia has played a prominent role in the discovery and monitoring of these enigmatic sources. The timing and discovery of millisecond pulsars is an area where Australia is a world leader. This programme will use a powerful new instrument on the Parkes radio telescope to search for the minute influence of gravitational waves from supermassive black hole binaries on the millisecond pulsars.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
New Pulsar Instrumentation for Gravitation Wave Detection and Understanding the Emission Mechanism. Millisecond pulsar timing currently provides the most sensitive method of detecting long-period gravitational waves which permeate the Universe. Parkes leads the world in the discovery and timing of millisecond pulsars. This has motivated the development of three new advanced instruments including a cyrogenic dual-band receiver, a very wide-band correlator and a baseband recorder with an in-built ....New Pulsar Instrumentation for Gravitation Wave Detection and Understanding the Emission Mechanism. Millisecond pulsar timing currently provides the most sensitive method of detecting long-period gravitational waves which permeate the Universe. Parkes leads the world in the discovery and timing of millisecond pulsars. This has motivated the development of three new advanced instruments including a cyrogenic dual-band receiver, a very wide-band correlator and a baseband recorder with an in-built supercomputer. We aim to exploit these new technologies to systematically study the pulsar population. We will establish a timing array which can detect gravitational waves, enable GLAST to identify over 100 gamma-ray pulsars and study the pulsar emission mechanism at sub-microsecond time resolution.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775602
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
A ground station for the NANTEN2 sub-millimetre wave telescope. Australia has a tradition of excellence in astronomy. Inspired by our natural wonder about the cosmos, it helps stimulate public interest in science, so leading to the training of highly skilled graduates. This in turn drives development of technologies needed to pursue the science. The nation has invested in technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. We aim to capitalise on this i ....A ground station for the NANTEN2 sub-millimetre wave telescope. Australia has a tradition of excellence in astronomy. Inspired by our natural wonder about the cosmos, it helps stimulate public interest in science, so leading to the training of highly skilled graduates. This in turn drives development of technologies needed to pursue the science. The nation has invested in technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. We aim to capitalise on this investment, leveraging it to access a frontline facility under construction on the Atacama plateau in Chile. This will help nurture a vigorous radio-science community, one able to actively participate in the billion-dollar investment being made by the international community in astronomical facilities there.Read moreRead less