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Ground-Based Gravitational-Wave Astronomy in Australia: 2019 White Paper

Authors :
Bailes, Matthew
McClelland, David
Thrane, Eric
Blair, David
Cooke, Jeffrey
Coward, David
Evans, Robin
Fenner, Yeshe
Galloway, Duncan
Hurley, Jarrod
Ju, Li
Lasky, Paul
Mandel, Ilya
McKenzie, Kirk
Melatos, Andrew
Ottaway, David
Scott, Susan
Slagmolen, Bram
Veitch, Peter
Wen, Linqing
Zhao, Chunnong
Bailes, Matthew
McClelland, David
Thrane, Eric
Blair, David
Cooke, Jeffrey
Coward, David
Evans, Robin
Fenner, Yeshe
Galloway, Duncan
Hurley, Jarrod
Ju, Li
Lasky, Paul
Mandel, Ilya
McKenzie, Kirk
Melatos, Andrew
Ottaway, David
Scott, Susan
Slagmolen, Bram
Veitch, Peter
Wen, Linqing
Zhao, Chunnong
Publication Year :
2019

Abstract

The past four years have seen a scientific revolution through the birth of a new field: gravitational-wave astronomy. The first detection of gravitational waves---recognised by the 2017 Nobel Prize in Physics---provided unprecedented tests of general relativity while unveiling a previously unknown class of massive black holes, thirty times more massive than the Sun. The subsequent detection of gravitational waves from a merging binary neutron star confirmed the hypothesised connection between binary neutron stars and short gamma-ray bursts while providing an independent measurement of the expansion of the Universe. The discovery enabled precision measurement of the speed of gravity while shedding light on the origin of heavy elements. At the time of writing, the Laser Interferometer Gravitational-wave Observatory (LIGO) and its European partner, Virgo, have published the detection of eleven gravitational-wave events. New, not-yet-published detections are announced on a nearly weekly basis. This fast-growing catalogue of gravitational-wave transients is expected to yield insights into a number of topics, from the equation of state of matter at supra-nuclear densities to the fate of massive stars. The science potential of 3G observatories is enormous, enabling measurements of gravitational waves from the edge of the Universe and precise determination of the neutron star equation of state. Australia is well-positioned to help develop the required technology. The Mid-term Review for the Decadal plan for Australian astronomy 2016-2025 should consider investment in a scoping study for an Australian Gravitational-Wave Pathfinder that develops and validates core technologies required for the global 3G detector network.<br />Comment: 8 pages, 7 figures

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1363520757
Document Type :
Electronic Resource