Using Australia's next-generation radio telescopes to unveil the gas cycle in galaxies. Despite tremendous progress in our understanding of galaxies, we still lack a clear picture of the role played by the gas component - the fuel for future star formation. This project will utilise the next-generation radio facilities being built in Australia and abroad to identify the most important processes regulating the gas cycle in galaxies.
Gravitational-wave astrophysics of binary black holes. Do black holes live alone, or form lasting gravitational partnerships? This question is of immense significance to astronomers. The emerging field of gravitational-wave astronomy is set to provide the answers. This project aims to develop innovative strategies to search for black hole pairs using leading technologies built with Australian expertise.
Pinpointing the hosts of Fast Radio Bursts with UTMOST-2D. This project proposes to localise a sample of detected ‘fast radio bursts’ to their host galaxies (or local progenitors) for the first time. ‘Fast radio bursts’ are impulsive bursts of radio energy, with characteristics consistent with an origin billions of light-years from Earth. If the source of the bursts can be pinpointed, they would offer a unique tool to study the tenuous, otherwise nearly invisible plasma that permeates the interg ....Pinpointing the hosts of Fast Radio Bursts with UTMOST-2D. This project proposes to localise a sample of detected ‘fast radio bursts’ to their host galaxies (or local progenitors) for the first time. ‘Fast radio bursts’ are impulsive bursts of radio energy, with characteristics consistent with an origin billions of light-years from Earth. If the source of the bursts can be pinpointed, they would offer a unique tool to study the tenuous, otherwise nearly invisible plasma that permeates the intergalactic medium. They could also be used as cosmic rulers to measure the expansion history of the Universe. To date, no burst has been associated with a host galaxy at a known distance, and some researchers maintain that fast radio bursts originate from more nearby sources, potentially even within our own Galaxy. The project plans to explore this hypothesis.Read moreRead less
A southern hemisphere ground station for the Atomic Clock Ensemble in Space mission. Australia is aiming for membership in the high-profile space mission involving atomic clocks on-board the International Space Station. The mission will test aspects of special and general relativity, searching for tell-tale signs of new physics. This project will construct an atomic fountain clock and install a microwave-satellite link to meet the goal.