An upgraded pulsar timing array for gravitational wave detection. Millisecond pulsars are remarkably regularly-rotating neutron stars that offer the opportunity to detect gravitational waves via the technique known as pulsar timing. Australia has long been a world leader in the discovery and timing of millisecond pulsars, and the Parkes pulsar timing array is one of three major programmes in the world aimed at making the first direct detection of gravitational waves in any frequency band. This p ....An upgraded pulsar timing array for gravitational wave detection. Millisecond pulsars are remarkably regularly-rotating neutron stars that offer the opportunity to detect gravitational waves via the technique known as pulsar timing. Australia has long been a world leader in the discovery and timing of millisecond pulsars, and the Parkes pulsar timing array is one of three major programmes in the world aimed at making the first direct detection of gravitational waves in any frequency band. This project is designed to capitalise on Australia's position of strength in this field by extending the Parkes Pulsar Timing Array dataset (PPTA) so that it has the best chance of detecting gravitational waves in the nanohertz regime until the SKA pathfinders start to come online in 2017.Read moreRead less
Ultra-sensitive third-generation gravitational wave detectors. Second-generation gravitational wave detectors that will directly detect gravitational waves for the first time are currently being assembled. Their sensitivity will be limited by intrinsic thermal motion of the atoms in the mirror coatings and the quantum nature of the laser beams in the detectors. This project aims to develop new designs with the aim of circumventing these limitations and developing the ultra-sensitive optical metr ....Ultra-sensitive third-generation gravitational wave detectors. Second-generation gravitational wave detectors that will directly detect gravitational waves for the first time are currently being assembled. Their sensitivity will be limited by intrinsic thermal motion of the atoms in the mirror coatings and the quantum nature of the laser beams in the detectors. This project aims to develop new designs with the aim of circumventing these limitations and developing the ultra-sensitive optical metrology required to realise those designs. It is expected that the increased sensitivity of these third-generation detectors will allow more detailed measurement of the gravitational wave signals and provide unprecedented understanding of some of the most violent events in the universe.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100008
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
Australian Seismic Imaging Array. The project aims to create a facility for developing techniques for imaging the deep earth and the surface motion in ambient seismic waves created by wind, waves and human activity. The techniques will enable sources of seismic vibrations to be identified and suppressed, and will allow mapping techniques to be developed for monitoring and discovery of resources such as ground water. Gravitational wave researchers will benefit from the ability to suppress seismic ....Australian Seismic Imaging Array. The project aims to create a facility for developing techniques for imaging the deep earth and the surface motion in ambient seismic waves created by wind, waves and human activity. The techniques will enable sources of seismic vibrations to be identified and suppressed, and will allow mapping techniques to be developed for monitoring and discovery of resources such as ground water. Gravitational wave researchers will benefit from the ability to suppress seismic vibrations, while geophysicists will benefit from new techniques and training. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100129
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
Equipment and instrumentation for breaking the quantum measurement barrier. This equipment will support Australia's partnership in the international effort to detect gravitational waves, which would allow the first direct observation of black holes and mark the beginning of exploration of the gravitational wave spectrum.
Gravitational wave detection with current and future radio telescopes. This project will aim to detect gravitational waves using precision pulsar timing observations. Direct detection of these waves is of huge international importance and will keep Australia at the forefront of the new research field of gravitational wave astronomy that will continue to grow with the planned radio telescopes of the future.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100144
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Equipment for International Collaboration in Next Generation GW Detectors. Equipment for international collaboration in next-generation gravitational wave detectors:
This project aims to create a silicon optics research facility which combines Australian capabilities in silicon manufacturing at nanometre precision, with revolutionary crystalline mirror technology. The equipment is designed to enable international teams of physicists to research the optical and acoustic properties of silicon in ....Equipment for International Collaboration in Next Generation GW Detectors. Equipment for international collaboration in next-generation gravitational wave detectors:
This project aims to create a silicon optics research facility which combines Australian capabilities in silicon manufacturing at nanometre precision, with revolutionary crystalline mirror technology. The equipment is designed to enable international teams of physicists to research the optical and acoustic properties of silicon in high optical power and high precision silicon measurement systems. Research facilitated by this equipment may pave the way for the next generation of ultra-low-noise systems required for gravitational wave detection, while opening the possibility of multiple new applications in precision measurement devices. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100032
Funder
Australian Research Council
Funding Amount
$990,000.00
Summary
Australian partnership in advanced Laser Interferometer Gravitational-Wave Observatory (LIGO) - continuation. Advanced Laser Interferometer Gravitational-Wave Obervatory (LIGO) will be the first gravitational wave observatory capable of frequent observation of known sources of gravitational waves leading to the birth of gravitational wave astronomy. By playing a key role in this facility, Australia will reap the scientific rewards of being part of the most exciting frontier of physics in the 2 ....Australian partnership in advanced Laser Interferometer Gravitational-Wave Observatory (LIGO) - continuation. Advanced Laser Interferometer Gravitational-Wave Obervatory (LIGO) will be the first gravitational wave observatory capable of frequent observation of known sources of gravitational waves leading to the birth of gravitational wave astronomy. By playing a key role in this facility, Australia will reap the scientific rewards of being part of the most exciting frontier of physics in the 21st century.Read moreRead less
Enhancing the science reach of second generation interferometric gravitational wave detectors through innovative mirror design and control. Predicted by Einstein, gravitational waves promise to unlock the secrets of the universe just as seismic measurements unlocked the secrets of the Earth's interior. Scientists are on the brink of detecting these waves. This research aids that effort by developing Australian technologies which allow specific gravitational wave sources to be targeted.
Quit In General Practice: A Cluster Randomised Trial Of Enhanced In-practice Support For Smoking Cessation
Funder
National Health and Medical Research Council
Funding Amount
$1,117,241.00
Summary
Tobacco smoking remains the most common preventable cause of death and illness in Australia today. Smoking cessation programs are some of the most effective and cost effective strategies that can be undertaken in health care settings, including general practice. This project will test a new approach to supporting smoking cessation in general practice. This involves the practice nurse, GP and Quitline working in partnership to provide a flexible program of suport to meet the needs of smokers.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100212
Funder
Australian Research Council
Funding Amount
$160,000.00
Summary
Deep investigations of galaxies and pulsars. A new detector for the Parkes radio telescope will be made which will enable the use of new techniques for removing radio interference and, as a result, will allow researchers to detect fainter and more distant objects in the Universe than previously possible.