The Mechanisms determining the Rolling Motions of Bodies. This project aims to investigate the mechanisms affecting the rolling motions of spheres and cylinders. This international project expects to generate new knowledge of the effect of surface roughness, cavitation and compressibility using novel experimental and computational methods. Expected outcomes of this project include the discovery of the explicit role of surface roughness in allowing bodies to roll, the means of modifying these mo ....The Mechanisms determining the Rolling Motions of Bodies. This project aims to investigate the mechanisms affecting the rolling motions of spheres and cylinders. This international project expects to generate new knowledge of the effect of surface roughness, cavitation and compressibility using novel experimental and computational methods. Expected outcomes of this project include the discovery of the explicit role of surface roughness in allowing bodies to roll, the means of modifying these motions, the wake mechanisms leading to body vibration, and the mixing induced by rolling bodies. This will provide significant benefits to the understanding of the motion of particles and bodies in a range of situations such as particle reactors and sedimentation processes.
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Photosynthesis under extreme conditions. The aim of this project is to characterise modifications to the light dependent reactions of photosynthesis of simple, single cell organisms that live under harsh environmental conditions including: i) elevated temperature; ii) low, variable and low energy (red) light; iii) arid and variable hydration; and iv) chemical stress e.g. low pH. In a changing biosphere brought about by anthropological climate change, a better understanding of existing adaptions ....Photosynthesis under extreme conditions. The aim of this project is to characterise modifications to the light dependent reactions of photosynthesis of simple, single cell organisms that live under harsh environmental conditions including: i) elevated temperature; ii) low, variable and low energy (red) light; iii) arid and variable hydration; and iv) chemical stress e.g. low pH. In a changing biosphere brought about by anthropological climate change, a better understanding of existing adaptions of bacterial photosynthetic organisms may allow more resilient crops and other essential plants to be developed in the future. The project brings together an international consortium of world renowned experts across key aspects of photosynthesis. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101593
Funder
Australian Research Council
Funding Amount
$462,948.00
Summary
Developing new tools to search for dark matter. This project aims to propose and assist in the development of novel approaches, based on atomic, molecular and optical technologies, to detect dark matter in the laboratory, and thereby establish the identity and microscopic properties of dark matter. The origin and nature of dark matter remains one of the most important outstanding problems in contemporary science. The intended outcome of this project is that the use of our novel methods will enab ....Developing new tools to search for dark matter. This project aims to propose and assist in the development of novel approaches, based on atomic, molecular and optical technologies, to detect dark matter in the laboratory, and thereby establish the identity and microscopic properties of dark matter. The origin and nature of dark matter remains one of the most important outstanding problems in contemporary science. The intended outcome of this project is that the use of our novel methods will enable us to search for forms of dark matter that have remained largely unprobed to date. This in turn is expected to open up new opportunities in the global hunt for dark matter that should improve our chances of finally discovering the nature and properties of dark matter.Read moreRead less
Nonlinear Optical Metrology of Electronic Interfaces for Silicon Devices. This project aims to develop a prototype electric field induced second harmonic generation metrology setup for studying thin film dielectric interfaces on silicon in partnership with Femtometrix. The quality of these silicon-dielectric interfaces, which are affected by trapped charges and defects, are critical for microelectronic and optoelectronic device manufacturing. Through several proposed methodologies to separate th ....Nonlinear Optical Metrology of Electronic Interfaces for Silicon Devices. This project aims to develop a prototype electric field induced second harmonic generation metrology setup for studying thin film dielectric interfaces on silicon in partnership with Femtometrix. The quality of these silicon-dielectric interfaces, which are affected by trapped charges and defects, are critical for microelectronic and optoelectronic device manufacturing. Through several proposed methodologies to separate the effect of interface and bulk signals, it is expected that the sensitivity of the prototype setup will exceed the previous record of 1 kV/cm. This metrology technique will be further expanded for applicability to silicon photovoltaics, specifically passivating contacts which cannot be studied via conventional techniques.Read moreRead less
“Beacons in the Night” unveiling how galaxies light up dark matter. How dark matter influences the formation and evolution of galaxies is to this day an outstanding question in astrophysics. To answer it, world-class facilities and a unique combination of observations and theory are required. This DP team, a world-class team of observers and theorists, will tackle this question by leveraging on two multi-million dollar projects: the MAGPI galaxy survey and the hydrodynamical simulations suite EA ....“Beacons in the Night” unveiling how galaxies light up dark matter. How dark matter influences the formation and evolution of galaxies is to this day an outstanding question in astrophysics. To answer it, world-class facilities and a unique combination of observations and theory are required. This DP team, a world-class team of observers and theorists, will tackle this question by leveraging on two multi-million dollar projects: the MAGPI galaxy survey and the hydrodynamical simulations suite EAGLE-XL. MAGPI will deliver exquisite kinematics for hundreds of galaxies in the middle ages of the Universe, providing a view to the effect of dark matter on galaxies at this critical time, while EAGLE-XL represents the technological frontier in simulations and provides the best interpretative framework for MAGPI.Read moreRead less
Beyond appearance: revealing the physics of galaxy transformation. This project aims to reveal the physical origin of the large variety of galaxies in the universe by utilising multi-wavelength observations of nearby galaxies combined with advanced data analysis techniques and cutting-edge numerical simulations. The project expects to generate new knowledge in the area of astrophysics by providing a physically-motivated foundation to the subjective and qualitative taxonomic scheme generally used ....Beyond appearance: revealing the physics of galaxy transformation. This project aims to reveal the physical origin of the large variety of galaxies in the universe by utilising multi-wavelength observations of nearby galaxies combined with advanced data analysis techniques and cutting-edge numerical simulations. The project expects to generate new knowledge in the area of astrophysics by providing a physically-motivated foundation to the subjective and qualitative taxonomic scheme generally used to understand how galaxies, and ultimately stars and planets, formed and evolve. Read moreRead less
Superconducting silicon nanodevices. This project will investigate superconductivity in silicon nanowire devices exhibiting both p-type and n-type conductivity. It builds on the recent demonstration at the University of Melbourne of superconductivity in nanowire devices at length-scales suitable for realisation of a broad range of superconducting device structures and utilises standard semiconductor-industry processes. This project will create a new platform for superconducting device developmen ....Superconducting silicon nanodevices. This project will investigate superconductivity in silicon nanowire devices exhibiting both p-type and n-type conductivity. It builds on the recent demonstration at the University of Melbourne of superconductivity in nanowire devices at length-scales suitable for realisation of a broad range of superconducting device structures and utilises standard semiconductor-industry processes. This project will create a new platform for superconducting device development in silicon with potential for building devices with new functionality and improved performance for applications in quantum information technologies, enhancing Australia’s global reputation in quantum information science and assisting emerging industries in this high-valued added area.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100205
Funder
Australian Research Council
Funding Amount
$367,000.00
Summary
Searching for Life on Mars on Earth. Australia continues to play a world-leading role in researching planetary habitability. This project will deliver the most comprehensive investigation of Earth’s oldest known river/lake deposits, uniquely preserved in 2.8 billion-year-old rocks in Western Australia. Using the candidate’s expertise in field investigation in combination with a cutting-edge analytical approach, the project will produce a detailed reconstruction of the ancient lake environment. S ....Searching for Life on Mars on Earth. Australia continues to play a world-leading role in researching planetary habitability. This project will deliver the most comprehensive investigation of Earth’s oldest known river/lake deposits, uniquely preserved in 2.8 billion-year-old rocks in Western Australia. Using the candidate’s expertise in field investigation in combination with a cutting-edge analytical approach, the project will produce a detailed reconstruction of the ancient lake environment. Similar settings will be explored by NASA's upcoming Mars 2020 rover mission at it's landing site in Jezero Crater. Mission data will be analysed by the candidate, who will guide the selection of samples and address the overarching question of whether microbal life ever existed on Mars.Read moreRead less
Fractional dynamic models for MRI to probe tissue microstructure. This project aims to develop new mathematical tools for mapping tissue microstructural properties via the use of space-time fractional calculus methods. In magnetic resonance imaging, mathematical models and their parameters play a key role in associating information between images and biology, with the overall aim of producing spatially resolved maps of tissue property variations. However, models which can inform on changes in mi ....Fractional dynamic models for MRI to probe tissue microstructure. This project aims to develop new mathematical tools for mapping tissue microstructural properties via the use of space-time fractional calculus methods. In magnetic resonance imaging, mathematical models and their parameters play a key role in associating information between images and biology, with the overall aim of producing spatially resolved maps of tissue property variations. However, models which can inform on changes in microscale tissue properties are lacking. The tools developed by this project will be used to generate new magnetic resonance image based maps to convey information on tissue microstructure changes in the human brain. Additionally, the mathematical tools developed will be transferable to other applications where diffusion and transport in heterogeneous porous media play a role.Read moreRead less
Cost-efficient 2D heterostructures for solar overall water splitting. This project aims to develop novel processes to enable water splitting to generate hydrogen and oxygen under sunlight using cost-efficient 2D van der Waals heterostructures. Enhanced optical absorption and reduced charge transfer distance across the interface are expected to improve the photocatalytic activity. Experimental design and theoretical simulations will be combined to modulate the materials and achieve optimum photoc ....Cost-efficient 2D heterostructures for solar overall water splitting. This project aims to develop novel processes to enable water splitting to generate hydrogen and oxygen under sunlight using cost-efficient 2D van der Waals heterostructures. Enhanced optical absorption and reduced charge transfer distance across the interface are expected to improve the photocatalytic activity. Experimental design and theoretical simulations will be combined to modulate the materials and achieve optimum photocatalytic performances. Expected outcomes of this project include expanded chemistry knowledge and techniques in materials design and synthesis, photophysics and photocatalysis mechanism and solar energy conversion. This will provide significant benefits to clean energy and environmental protections.Read moreRead less