Australia Surveys the Galaxies: The Central Role of Environment. The success of Australia's premier astronomical facilities is critical to the development of Australian astronomy in the 21st century. Understanding how galaxies grow and evolve (including our Milky Way) is one of the principal goals of these facilities. This program aims to understand galaxy evolution, by exploring the connection between galaxies and their environments. The Super Science Fellows will gain new insights into the lon ....Australia Surveys the Galaxies: The Central Role of Environment. The success of Australia's premier astronomical facilities is critical to the development of Australian astronomy in the 21st century. Understanding how galaxies grow and evolve (including our Milky Way) is one of the principal goals of these facilities. This program aims to understand galaxy evolution, by exploring the connection between galaxies and their environments. The Super Science Fellows will gain new insights into the longstanding problem of galaxy evolution, and build upon Australia's investment in 21st century astrophysics.Read moreRead less
Neutral Hydrogen in the Universe. This proposal will improve our understanding of the origin and continuing evolution of galaxies like our own Milky Way. It will do so by using powerful new telescopes such as the Australian Square Kilometre Array Pathfinder (ASKAP), being constructed by CSIRO in Western Australia, and new supercomputers to be provided by the new Pawsey High Performance Computing Centre for Square Kilometre Array (SKA) Science in Perth. Combined with expertise in areas of astroph ....Neutral Hydrogen in the Universe. This proposal will improve our understanding of the origin and continuing evolution of galaxies like our own Milky Way. It will do so by using powerful new telescopes such as the Australian Square Kilometre Array Pathfinder (ASKAP), being constructed by CSIRO in Western Australia, and new supercomputers to be provided by the new Pawsey High Performance Computing Centre for Square Kilometre Array (SKA) Science in Perth. Combined with expertise in areas of astrophysics and information technology, the research outlined in this proposal will further advance the case for Australia's bid to host the SKA by establishing a strong community of scientists capable of developing the science and Information and Communication Technologies components for one of the SKA's most important goals.Read moreRead less
Exploiting the discovery of ultra-faint dwarf galaxies in the southern hemisphere sky. The scientific exploitation of newly discovered southern hemisphere ultra-faint Milky Way satellite galaxies will make Australia a leader in this rapidly developing research field. It will be enabled by access to national and international telescope facilities such as the Anglo- Australian Telescope (AAT), Gemini and Magellan, and by access to national computing resources for theoretical simulations. National ....Exploiting the discovery of ultra-faint dwarf galaxies in the southern hemisphere sky. The scientific exploitation of newly discovered southern hemisphere ultra-faint Milky Way satellite galaxies will make Australia a leader in this rapidly developing research field. It will be enabled by access to national and international telescope facilities such as the Anglo- Australian Telescope (AAT), Gemini and Magellan, and by access to national computing resources for theoretical simulations. National benefit will also flow from collaborations between the team and its Super Science Fellows and researchers at overseas institutions. Results from the project will motivate research programs for the coming era of extremely large telescopes and will position the Fellows as potential future leaders in the exploiting the scientific potential of those facilities.Read moreRead less
The Galaxy Genome Project 2. The Galaxy Genome Project builds on the Anglo-Australian Observatory's (AAO) major investments and world-leading strengths in wide-field survey astronomy and multi-object spectrographs. Combining the AAO's ongoing and planned survey programs with data from other new Australian facilities, such as SkyMapper and Australian Square Kilometre Array Pathfinder, will increase the scientific productivity and impact of all of these major Australian investments and leverage ac ....The Galaxy Genome Project 2. The Galaxy Genome Project builds on the Anglo-Australian Observatory's (AAO) major investments and world-leading strengths in wide-field survey astronomy and multi-object spectrographs. Combining the AAO's ongoing and planned survey programs with data from other new Australian facilities, such as SkyMapper and Australian Square Kilometre Array Pathfinder, will increase the scientific productivity and impact of all of these major Australian investments and leverage access for Australian researchers in other leading international astronomical surveys and facilities. The project will also increase the international profile of Australian astronomy and enhance the prospects of Australian scientific and technical involvement in next-generation astronomical facilities such as Square Kilometre Array and Giant Magellan Telescope.Read moreRead less
The Galaxy Genome Project 1. The Galaxy Genome Project builds on the Anglo-Australian Observatory's (AAO) major investments and world-leading strengths in wide-field survey astronomy and multi-object spectrographs. Combining the AAO's ongoing and planned survey programs with data from other new Australian facilities, such as SkyMapper and Australian Square Kilometre Array Pathfinder, this project will increase the scientific productivity and impact of all of these major Australian investments an ....The Galaxy Genome Project 1. The Galaxy Genome Project builds on the Anglo-Australian Observatory's (AAO) major investments and world-leading strengths in wide-field survey astronomy and multi-object spectrographs. Combining the AAO's ongoing and planned survey programs with data from other new Australian facilities, such as SkyMapper and Australian Square Kilometre Array Pathfinder, this project will increase the scientific productivity and impact of all of these major Australian investments and leverage access for Australian researchers in other leading international astronomical surveys and facilities. The project will also increase the international profile of Australian astronomy and enhance the prospects of Australian scientific and technical involvement in next-generation astronomical facilities such as Square Kilometre Array and Giant Magellan Telescope.Read moreRead less
Large-scale maps of the universe: Enabling wide-field science with the Australian Square Kilometre Array Pathfinder and the Square Kilometre Array. Observational capabilities in astronomy continue to make great advances across the electromagnetic spectrum. The first truly global facility for radio astronomy will be the Square Kilometre Array (SKA), an international $2.5 billion project scheduled for deployment between 2015 and 2020, for which the proposed Australian site has been short-listed. T ....Large-scale maps of the universe: Enabling wide-field science with the Australian Square Kilometre Array Pathfinder and the Square Kilometre Array. Observational capabilities in astronomy continue to make great advances across the electromagnetic spectrum. The first truly global facility for radio astronomy will be the Square Kilometre Array (SKA), an international $2.5 billion project scheduled for deployment between 2015 and 2020, for which the proposed Australian site has been short-listed. The Australian SKA Pathfinder (ASKAP) is a next generation radio telescope that is on the strategic pathway towards the staged development and deployment of the SKA. By refining the ASKAP technology and enabling its scientific success we address the national strategic goal of ensuring Australia's technological and scientific readiness for the SKA.Read moreRead less
Peering through the Dark Ages with the Murchison Widefield Array. There is one large gap in our understanding of the early evolution of the universe, namely, when did the first sources of light appear? Resolution of this puzzle requires new observational and technical strategies, both in terms of telescopes and the analysis of observations. The Murchison Widefield Array, a major new radio telescope in Western Australia, is an international initiative under construction to tackle the problem. Thi ....Peering through the Dark Ages with the Murchison Widefield Array. There is one large gap in our understanding of the early evolution of the universe, namely, when did the first sources of light appear? Resolution of this puzzle requires new observational and technical strategies, both in terms of telescopes and the analysis of observations. The Murchison Widefield Array, a major new radio telescope in Western Australia, is an international initiative under construction to tackle the problem. This program will provide a significant Australian contribution at the forefront of modern cosmology.Read moreRead less
A New Era for Australian Exoplanetary Science. There are few areas of learning that engage the public in cutting-edge science and technology more than astronomy – and few areas of astronomy that engage and fascinate as thoroughly as the study of planets and astrobiology. This research program will not only discover new rocky and gas giant planets orbiting other stars, but tell us about how those planets formed – allowing us to answer the key question for current exoplanetary research – “Are ther ....A New Era for Australian Exoplanetary Science. There are few areas of learning that engage the public in cutting-edge science and technology more than astronomy – and few areas of astronomy that engage and fascinate as thoroughly as the study of planets and astrobiology. This research program will not only discover new rocky and gas giant planets orbiting other stars, but tell us about how those planets formed – allowing us to answer the key question for current exoplanetary research – “Are there other Earths in the Universe?”Read moreRead less
Space Science and Astronomy: Dissecting the Galaxy with High Resolution Multi-Object Echelle Spectrograph (HERMES) II: Decisive Observations. Australia has long been a world leader in wide-field astronomical surveys, and the new High Resolution Multi-Object Echelle Spectrograph (HERMES) being built for the Anglo-Australian Telescope (AAT) will enhance that leadership position. Through a combination of Australian technological and scientific advances, the surveys we conduct with HERMES will allow ....Space Science and Astronomy: Dissecting the Galaxy with High Resolution Multi-Object Echelle Spectrograph (HERMES) II: Decisive Observations. Australia has long been a world leader in wide-field astronomical surveys, and the new High Resolution Multi-Object Echelle Spectrograph (HERMES) being built for the Anglo-Australian Telescope (AAT) will enhance that leadership position. Through a combination of Australian technological and scientific advances, the surveys we conduct with HERMES will allow us to study galaxy formation and stellar astrophysics in unprecedented detail. There are powerful synergies between HERMES and Skymapper, another Australian astronomical survey, as well as with Gaia, the billion-dollar European space mission for studying the Galaxy; HERMES will thus promote both national and international research collaboration. In this proposal we lay the observational groundwork for maximising the scientific return from HERMES.Read moreRead less
Nanofabrication of Metamaterials for Next Generation Optical Devices. The dream of invisibility cloaks dates back to ancient times but recent advances in nanotechnology have made this a reality through the use of metamaterials. Metamaterials are artificially-made materials that have optical properties not found in nature. This field is still in its infancy and significant challenges remain and need to be solved before practical applications can be realised. This project builds on Australia’s str ....Nanofabrication of Metamaterials for Next Generation Optical Devices. The dream of invisibility cloaks dates back to ancient times but recent advances in nanotechnology have made this a reality through the use of metamaterials. Metamaterials are artificially-made materials that have optical properties not found in nature. This field is still in its infancy and significant challenges remain and need to be solved before practical applications can be realised. This project builds on Australia’s strategic investment in nanofabrication capabilities to fabricate functional metamaterials and uncover the underlying physical phenomena. It will revolutionise the field of nanophotonics for a variety of novel applications ranging from defence, renewable energy, imaging, sensing to optical communications.Read moreRead less