Technologies for space based interferometry. This project aims to develop a new method for laser displacement measurements that will be uniquely suited for use in space. These measurements will enable gravitational measurements of unprecedented accuracy. Missions such as GRACE utilise gravitational observations to provide the distribution of melting polar ice, changes in sea levels, and quantitative estimates of ground water in the world’s food bowls. The technique will also allow space-based gr ....Technologies for space based interferometry. This project aims to develop a new method for laser displacement measurements that will be uniquely suited for use in space. These measurements will enable gravitational measurements of unprecedented accuracy. Missions such as GRACE utilise gravitational observations to provide the distribution of melting polar ice, changes in sea levels, and quantitative estimates of ground water in the world’s food bowls. The technique will also allow space-based gravitational wave detectors far simpler than previous proposals. The improved performance, inherent robustness and drastically reduced complexity will enable new classes of missions that would not otherwise be possible. Read moreRead less
Calibrating astronomical spectrographs to discover Earth-like planets. This project aims to develop a robust, ultra-precise calibration system that improves the precision of Doppler spectrographs by a factor of ten –sufficient to discover rocky planets. The holy grail of exoplanet research is the discovery of an Earth-like planet in the habitable zone of a Sun-like star. The planet’s tug on its host star causes a periodic Doppler shift of the star’s spectrum which precision astronomical spectrog ....Calibrating astronomical spectrographs to discover Earth-like planets. This project aims to develop a robust, ultra-precise calibration system that improves the precision of Doppler spectrographs by a factor of ten –sufficient to discover rocky planets. The holy grail of exoplanet research is the discovery of an Earth-like planet in the habitable zone of a Sun-like star. The planet’s tug on its host star causes a periodic Doppler shift of the star’s spectrum which precision astronomical spectrographs record. Detecting minute shifts from rocky planets needs better precision than the best spectrographs provide. This project expects to help to discover Earth twins, habitable worlds outside the Solar system.Read moreRead less
Illuminating the cosmic web with Fast Radio Bursts. This project aims to establish the use of millisecond-duration Fast Radio Bursts as a wholly new means to map out the distribution of matter in the Universe. This project expects to localise 100s of bursts using novel infrastructure deployed on Australia's largest radio telescopes. Expected outcomes include an understanding of the processes that shape both the large-scale structures of the Universe, and the extreme conditions that exist at the ....Illuminating the cosmic web with Fast Radio Bursts. This project aims to establish the use of millisecond-duration Fast Radio Bursts as a wholly new means to map out the distribution of matter in the Universe. This project expects to localise 100s of bursts using novel infrastructure deployed on Australia's largest radio telescopes. Expected outcomes include an understanding of the processes that shape both the large-scale structures of the Universe, and the extreme conditions that exist at the sites of Fast Radio Bursts. This should provide significant benefits to our fundamental knowledge of the Universe, inspire students into careers in science, technology, engineering and mathematics, and develop signal processing techniques of application to both the Square Kilometre Array and industry.Read moreRead less
Precision tests of fundamental physics at the electroweak unification scale. The project aims to advance novel precision frequency generation and measurement techniques beyond the present state of the art, through the implementation of sapphire and quartz bulk acoustic wave resonator and related technology at low temperature. The project plans to apply this technological advancement to extremely sensitive tests of General Relativity able to probe suppressed effects emanating from the Planck scal ....Precision tests of fundamental physics at the electroweak unification scale. The project aims to advance novel precision frequency generation and measurement techniques beyond the present state of the art, through the implementation of sapphire and quartz bulk acoustic wave resonator and related technology at low temperature. The project plans to apply this technological advancement to extremely sensitive tests of General Relativity able to probe suppressed effects emanating from the Planck scale. Such tests include new tests of Lorentz invariance violations of photons and phonons, tests of fundamental constant invariance and other tests of fundamental physics. Results could lead to the discovery of the correct theory of quantum gravity, a major unsolved problem in contemporary physics.Read moreRead less