Soil ecology in the 21st century - a crucial role in land management. Recent technological advances have helped us discover the role of soil ecology in achieving sustainability in Australia. This project will develop ways to take this complex knowledge and translate it into forms that can be used by land managers. This work will focus on soil carbon sequestration, but is relevant to many other environmental issues.
Understanding why aluminium and other trace metals are toxic to plants - the key to improving crop yield in degraded soils. Aluminium toxicity drastically reduces plant growth in acid soils, costing Australia approximately $1.5 billion per annum in lost productivity. This project will aim to identify the reasons behind the toxicities of aluminium and other metals and has the potential to increase yields in 50 per cent of Australia’s agricultural land which is acidic.
Interplay of the forces of nature: electroweak and strong interactions. The Large Hadron Collider in Switzerland will search for new physics by smashing protons together at the highest energies ever created in the laboratory. This project will focus on complementary searches for new physics by investigating novel phenomena associated with the mutual interactions of the strong and weak forces of nature.
A comprehensive approach to dark matter searches: the Cherenkov Telescope Array, IceCube and the Large Hadron Collider. Following the recent discovery of the Higgs boson, the greatest outstanding mystery in physics, it is now time to identify the nature of the dark matter that fills much of our Universe. This project aims to invent new data mining techniques to test the viability of a wide class of theoretical dark matter models, using an extensive range of particle physics and astrophysics data ....A comprehensive approach to dark matter searches: the Cherenkov Telescope Array, IceCube and the Large Hadron Collider. Following the recent discovery of the Higgs boson, the greatest outstanding mystery in physics, it is now time to identify the nature of the dark matter that fills much of our Universe. This project aims to invent new data mining techniques to test the viability of a wide class of theoretical dark matter models, using an extensive range of particle physics and astrophysics data. It will use these models to help design the next generation of dark matter searches in gamma ray and neutrino astronomy, using the Large Hadron Collider. This project aims to put Australia at the forefront of international particle astrophysics research and potential new discoveries will change the future direction of international particle research.Read moreRead less
Probing the experimental frontier of particle physics with high-precision and high-energy collisions. Analysis of data from the high-energy collisions at the Large Hadron Collider, and B-physics observables, will provide a new precision by which to interrogate our picture of the Universe. The interplay between these two novel and complementary approaches will unveil the fundamental nature of the particles that make up all known matter. Technological advances in high precision data analysis, and ....Probing the experimental frontier of particle physics with high-precision and high-energy collisions. Analysis of data from the high-energy collisions at the Large Hadron Collider, and B-physics observables, will provide a new precision by which to interrogate our picture of the Universe. The interplay between these two novel and complementary approaches will unveil the fundamental nature of the particles that make up all known matter. Technological advances in high precision data analysis, and experimental data readout, will result in significant advances in the global knowledge of particle detector performance and operation. New techniques in data analysis will arise from this work. In going beyond the Standard Model and discovering extensions to the theory, the ultimate outcome of this project will define new directions for the field.Read moreRead less
The top quark: a portal to new physics in particle colliders. This project aims to address fundamental questions of particle physics by studying the top quark, the most elementary particle known. The project will generate new knowledge about the top quark and the recently discovered Higgs boson, explore dark matter production in particle collisions, and potentially discover and study new phenomena. The project will develop data analysis techniques that could be used in big data contexts beyond f ....The top quark: a portal to new physics in particle colliders. This project aims to address fundamental questions of particle physics by studying the top quark, the most elementary particle known. The project will generate new knowledge about the top quark and the recently discovered Higgs boson, explore dark matter production in particle collisions, and potentially discover and study new phenomena. The project will develop data analysis techniques that could be used in big data contexts beyond fundamental research. The expected outcome of the project is to expand in a substantial way our understanding of the smallest components of matter and potentially, also of the largest structures of the Universe.Read moreRead less
Ringed photonic crystal fibres for broadband nonlinear optics. The technology developed from this project will enable organic molecules to be detected, identified and quantified. Because the technology is compact, easily engineered and low cost, it will lead to a dramatically increased capability for infrared spectroscopic measurement throughout biology and medicine, with specific benefits in agriculture, the food industry and defence.
The Standard Model and beyond on supercomputers. Using the latest advances in supercomputing, the researcher will confront some of the most challenging problems facing nuclear and particle physicists.
The Quest for Ultimate Measurement Precision. Precision measurement is the foundation upon which modern technological society is built. The highest quality measurement devices rely on stable clocks for their operation. The group's existing research has been aimed at developing some of the world's most precise measurement tools based on clocks and lasers. In parallel with this, other scientists have developed the means for exquisite control of light on the microscopic scale. By combining these tw ....The Quest for Ultimate Measurement Precision. Precision measurement is the foundation upon which modern technological society is built. The highest quality measurement devices rely on stable clocks for their operation. The group's existing research has been aimed at developing some of the world's most precise measurement tools based on clocks and lasers. In parallel with this, other scientists have developed the means for exquisite control of light on the microscopic scale. By combining these two technologies, both of which lie at the extreme limit of precision, the group will develop a new generation of technology for fundamental science objectives as well as for industrial needs.Read moreRead less
The mechanochemical basis of cell polarity. This project aims to study how epithelial cells initiate polarisation, a major question in biology that conventional biochemical, cell biological and genetic approaches have not answered. This project will investigate the mechanochemical basis of symmetry breaking in the cellular cortex, a thin layer of actomyosin filaments underneath the plasma membrane, and how this forms signalling zones. Understanding polarity is expected to improve epithelia manip ....The mechanochemical basis of cell polarity. This project aims to study how epithelial cells initiate polarisation, a major question in biology that conventional biochemical, cell biological and genetic approaches have not answered. This project will investigate the mechanochemical basis of symmetry breaking in the cellular cortex, a thin layer of actomyosin filaments underneath the plasma membrane, and how this forms signalling zones. Understanding polarity is expected to improve epithelia manipulation in disciplines from tissue engineering to regenerative biology and reveal how epithelial architecture and physiology are generated.Read moreRead less