Capturing gravitational wave and electromagnetic flashes from binary merger. This project aims to contribute to one of the most momentous and long-anticipated discoveries in physics: the first detection of gravitational waves. The project plans to develop innovative technologies to detect gravitational waves using laser interferometers and enable prompt follow-up observations of gravitational wave sources by conventional telescopes. The outcome of this research would greatly help probe the natur ....Capturing gravitational wave and electromagnetic flashes from binary merger. This project aims to contribute to one of the most momentous and long-anticipated discoveries in physics: the first detection of gravitational waves. The project plans to develop innovative technologies to detect gravitational waves using laser interferometers and enable prompt follow-up observations of gravitational wave sources by conventional telescopes. The outcome of this research would greatly help probe the nature of matter and gravity at extreme densities.Read moreRead less
Understanding the role of terrain geometry in eruptive bushfire behaviour. This project aims to improve understanding of the physical processes that cause eruptive bushfire behaviour, otherwise known as fire blow-up. Eruptive fire behaviour, characterised by rapid and unexpected escalation in fire intensity and rate of spread, is a global phenomenon that poses a major threat to fire-fighter safety and can seriously compromise bushfire suppression efforts. This project will address the role that ....Understanding the role of terrain geometry in eruptive bushfire behaviour. This project aims to improve understanding of the physical processes that cause eruptive bushfire behaviour, otherwise known as fire blow-up. Eruptive fire behaviour, characterised by rapid and unexpected escalation in fire intensity and rate of spread, is a global phenomenon that poses a major threat to fire-fighter safety and can seriously compromise bushfire suppression efforts. This project will address the role that terrain geometry plays in the incidence of fire eruption, through consideration of its effect on the attachment of flames to a surface. Expected outcomes include a dynamic fire spread modelling framework and the provision of better advice to bushfire authorities concerning fire blow-up.Read moreRead less
Understanding and improving rare earth corrosion inhibitors. This project aims to investigate rare earth corrosion inhibitors by an interdisciplinary program of chemistry and materials science.
The project will generate new knowledge as to how rare earth corrosion inhibitors function and can be improved.
Expected outcomes include a better understanding of inhibitor induced protective films and improved inhibitors.
Significant benefits are eventually better protection of infrastructure from .... Understanding and improving rare earth corrosion inhibitors. This project aims to investigate rare earth corrosion inhibitors by an interdisciplinary program of chemistry and materials science.
The project will generate new knowledge as to how rare earth corrosion inhibitors function and can be improved.
Expected outcomes include a better understanding of inhibitor induced protective films and improved inhibitors.
Significant benefits are eventually better protection of infrastructure from corrosion with greener inhibitors and a new bulk use for rare earths to aid Australia’s emerging rare earth industry.
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