| Alternative names | AIGO |
|---|---|
| Location(s) | Gingin,Western Australia, AUS |
TheAustralian International Gravitational Observatory (AIGO) is a research facility located nearGingin, north ofPerth inWestern Australia. It is part of a worldwide effort to directly detectgravitational waves. Note that these are a major prediction of thegeneral theory of relativity and are not to be confused withgravity waves, a phenomenon studied influid mechanics.
It is operated by the Australian International Gravitational Research Centre (AIGRC) through theUniversity of Western Australia under the auspices of theAustralian Consortium for Interferometric Gravitational Astronomy (ACIGA).
The current aim of the facility is to develop advanced techniques for improving the sensitivity of interferometricgravitational wave detectors such asLIGO andVIRGO. A study of operational interferometric gravitational wave detectors shows that AIGO is situated in almost the ideal location to complement existing detectors in the Northern hemisphere.[1]
Current facilities (AIGO Stage I) consist of an L-shapedultra high vacuum system, measuring 80 m on each side forming aninterferometer for detectinggravitational waves.[2]
LIGO-Australia was a proposed plan (AIGO Stage II) to install anAdvanced LIGO interferometer at AIGO, forming a triangle of three Advanced LIGO detectors.[3][4] It was to consist of an L-shaped interferometer, measuring 5 km on each side, with vacuum pipes about 700 mm in diameter.[2]
A 2010 developmental roadmap[5] issued by theGravitational Wave International Committee (GWIC) for the field of gravitational-wave astronomy recommended that an expansion of the global array of interferometric detectors be pursued as a highest priority. In its roadmap, GWIC identified the Southern Hemisphere as one of the key locations in which a gravitational-wave interferometer could most effectively complement existing detectors. The AIGO facility in Western Australia was well-located to work with the existing and planned components of the global network, and already possessed an active gravitational-wave community.
The LIGO-Australia plan was approved by LIGO's US funding agency, theNational Science Foundation, contingent on the understanding that it involved no increase in LIGO's total budget. The cost of building, operating and staffing the interferometer would have rested entirely with the Australian government.[6] After a year-long effort, the LIGO Laboratory reluctantly acknowledged that the proposed relocation of an Advanced LIGO detector to Australia was not to occur. The Australian government had committed itself to a balanced budget and this precluded any new starts in science. The deadline for a response from Australia passed on 1 October 2011.
The proposal was then moved to India, where theIndian Initiative in Gravitational-wave Observations obtained some government support to pursue a similar plan, namedLIGO-India, as AIGO had attempted. India is not quite as good a location as Australia, but provides most of the benefit.
AIGO is on the same grounds as theGravity Discovery Centre and theGDC Observatory, of which are educational and instructional facilities open to the general public. It is also the site of the Geoscience Australia Gingin Magnetic Observatory, one of a network of nine for monitoring the Earth's magnetic field.[7][8]
