Discovery Early Career Researcher Award - Grant ID: DE160100849
Funder
Australian Research Council
Funding Amount
$326,637.00
Summary
Measuring the Universe’s early evolution using lunar occultations. This project seeks to measure a radio signal for the first time, using the Murchison Widefield Array telescope and a novel technique involving the Moon, to learn what luminous objects dominated the early Universe. There is an entire period in the early Universe that remains unobserved because familiar objects such as stars and galaxies have yet to form. One of the few observables from this period, and the time directly following ....Measuring the Universe’s early evolution using lunar occultations. This project seeks to measure a radio signal for the first time, using the Murchison Widefield Array telescope and a novel technique involving the Moon, to learn what luminous objects dominated the early Universe. There is an entire period in the early Universe that remains unobserved because familiar objects such as stars and galaxies have yet to form. One of the few observables from this period, and the time directly following it, is the radio signal emitted by neutral hydrogen atoms. Innovative analysis techniques may be developed and new training pathways for astronomers should be initiated. The Project aims to raise Australia’s scientific profile and engage the public, promoting astronomy by making results accessible and using the Moon as a familiar foundation.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100055
Funder
Australian Research Council
Funding Amount
$560,000.00
Summary
The Australian European Southern Observatory Positioner (AESOP). The Australian European Southern Observatory Positioner (AESOP): The aim of the Australian European Southern Observatory Positioner (AESOP) is to fund the construction costs of an innovative instrument to be built in Australia and installed onto the European Southern Observatory's (ESO) VISTA telescope. Australia leads the world in fibre-positioning instrumentation and their scientific exploitation. This project will allow Australi ....The Australian European Southern Observatory Positioner (AESOP). The Australian European Southern Observatory Positioner (AESOP): The aim of the Australian European Southern Observatory Positioner (AESOP) is to fund the construction costs of an innovative instrument to be built in Australia and installed onto the European Southern Observatory's (ESO) VISTA telescope. Australia leads the world in fibre-positioning instrumentation and their scientific exploitation. This project will allow Australian researchers to take a leading role through major studies of the spatial distributions of galaxies. The outcomes of the project will be construction and delivery of an optical fibre-positioning system to the ESO, resulting in general access to the ESO's premier survey facility for eight Australian researchers.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100145
Funder
Australian Research Council
Funding Amount
$430,000.00
Summary
Australian membership of the European 4MOST Consortium. Australian membership of the European 4MOST consortium:
The objective of this project is to build the positioner at the Australian Astronomical Observatory to enable participation in the upcoming programs of the European Southern Observatory (ESO). The 4MOST Consortium is modifying one of the ESO telescopes for a 10-year campaign of dedicated wide-field astronomy programs. A key component of this upgrade will be the Australian built fibre- ....Australian membership of the European 4MOST Consortium. Australian membership of the European 4MOST consortium:
The objective of this project is to build the positioner at the Australian Astronomical Observatory to enable participation in the upcoming programs of the European Southern Observatory (ESO). The 4MOST Consortium is modifying one of the ESO telescopes for a 10-year campaign of dedicated wide-field astronomy programs. A key component of this upgrade will be the Australian built fibre-positioning system. In exchange for covering the labour costs associated with this instrument, Australian astronomers are being provided with the opportunity to lead one of the eight design reference missions and to participate in the other seven. The potential benefits are therefore two-fold: showcasing Australian technologies, and a leadership role for Australian scientists on one of ESO’s key facilities.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100002
Funder
Australian Research Council
Funding Amount
$3,000,000.00
Summary
Australian Partnership in Advanced LIGO+: continuation. The aim of this project is, in collaboration with the USA and UK, to complete the installation and commissioning of the Advanced LIGO+ facilities in the USA in order to bring them to design sensitivity. These facilities expect to increase the event rate of gravitational wave signals by a factor of 125. This should lead to daily detections and the observation of new sources of gravitational waves. Given that only 5% of the universe is detect ....Australian Partnership in Advanced LIGO+: continuation. The aim of this project is, in collaboration with the USA and UK, to complete the installation and commissioning of the Advanced LIGO+ facilities in the USA in order to bring them to design sensitivity. These facilities expect to increase the event rate of gravitational wave signals by a factor of 125. This should lead to daily detections and the observation of new sources of gravitational waves. Given that only 5% of the universe is detectable by telescopes, the impact of gravitational wave detections on our understanding of the universe is inestimable. Australian partnership intends to enable our physicists and astronomers to be at the vanguard of this brand new field and inspire a new generation to study the physical sciences.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100030
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Koala: a new integral field capability for the Anglo-Australian Telescope. This new instrument will be used by the Anglo-Australian Telescope and will be capable of simultaneously collecting over one thousand individual spectra from a region of sky. The data obtained will provide a wealth of information on extended astrophysical sources, such as star clusters, planetary nebulae and nearby galaxies.
Advanced Combustion Modelling for Scramjets and Rotating Detonation Engines. This project will develop new fundamental knowledge and engineering models underpinning air-breathing high speed propulsion engines employing complex hydrocarbon fuels. Extensive data and new physical understanding will be garnered through analysis of direct numerical simulations of supersonic reacting mixing layers including impinging shock waves. That data will be employed to isolate, test and develop computationally ....Advanced Combustion Modelling for Scramjets and Rotating Detonation Engines. This project will develop new fundamental knowledge and engineering models underpinning air-breathing high speed propulsion engines employing complex hydrocarbon fuels. Extensive data and new physical understanding will be garnered through analysis of direct numerical simulations of supersonic reacting mixing layers including impinging shock waves. That data will be employed to isolate, test and develop computationally efficient engineering models that are accurate and efficient for high speed combustion in rotating detonation engines and scramjets. Expected outcomes are knowledge and tools needed to develop practical and effective supersonic propulsion engines for access to space, defence and high speed point-to-point flight.
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Smart searches for continuous gravitational waves with advanced LIGO. This project aims to detect continuous gravitational waves from neutron stars, by using smart signal processing methods developed for engineering applications like mobile telephony. The first direct detection of Einstein's gravitational waves from two merging black holes by the Laser Interferometer Gravitational Wave Observatory in 2015 began a new era of human discovery. This project is expected to progress gravitational wave ....Smart searches for continuous gravitational waves with advanced LIGO. This project aims to detect continuous gravitational waves from neutron stars, by using smart signal processing methods developed for engineering applications like mobile telephony. The first direct detection of Einstein's gravitational waves from two merging black holes by the Laser Interferometer Gravitational Wave Observatory in 2015 began a new era of human discovery. This project is expected to progress gravitational wave science and Australia's role in it, and generate insights about the origin of neutron stars and the physics of bulk nuclear matter under extremes of gravity, density and magnetisation which cannot be replicated on Earth.Read moreRead less