Generating evidence for nature-based strategies to reduce loneliness. While loneliness and despair are reportedly increasing due to social and economic upheaval caused by the COVID-19 pandemic, governments are investing in urban greening. This project aims to help steer greening strategies to reduce loneliness and despair, to enable recoveries from COVID-19 that are more sustainable, equitable and nourishing. This project will: (1) engage with leading scientists within and outside Australia to f ....Generating evidence for nature-based strategies to reduce loneliness. While loneliness and despair are reportedly increasing due to social and economic upheaval caused by the COVID-19 pandemic, governments are investing in urban greening. This project aims to help steer greening strategies to reduce loneliness and despair, to enable recoveries from COVID-19 that are more sustainable, equitable and nourishing. This project will: (1) engage with leading scientists within and outside Australia to formalise my draft conceptual model of pathways linking urban greening with loneliness and despair; (2) test associations and pathways with multiple sources of nationally representative data; (3) supervise a mixed-methods PhD project; and (4) share findings for building up knowledge capacities and guideline development.Read moreRead less
Molecular movies using time-resolved momentum spectroscopies. This project aims to use time-resolved momentum spectroscopies to take snapshots of chemical and physical processes as they evolve in time. This project expects to use these molecular movies to track the changes to electron motion after they have absorbed light. Expected outcomes of this project include understanding how the motion of electrons can drive physical processes and induce chemical changes. This will provide significant ben ....Molecular movies using time-resolved momentum spectroscopies. This project aims to use time-resolved momentum spectroscopies to take snapshots of chemical and physical processes as they evolve in time. This project expects to use these molecular movies to track the changes to electron motion after they have absorbed light. Expected outcomes of this project include understanding how the motion of electrons can drive physical processes and induce chemical changes. This will provide significant benefits through expanding knowledge that will assist in controlling chemical reactions and developing technologies with improved performance, such as sensors and solar cells. Read moreRead less
Heavy atoms and ions and precision tests of fundamental physics. This project aims to further the understanding of the structure of heavy atoms through development and application of state-of-the-art many-electron methods. Atomic physics is undergoing a period of rapid growth with a new generation of experiments underway across different areas in fundamental physics. This includes testing particle physics at low energies, opening a new realm of discovery with the synthesis and interrogation of s ....Heavy atoms and ions and precision tests of fundamental physics. This project aims to further the understanding of the structure of heavy atoms through development and application of state-of-the-art many-electron methods. Atomic physics is undergoing a period of rapid growth with a new generation of experiments underway across different areas in fundamental physics. This includes testing particle physics at low energies, opening a new realm of discovery with the synthesis and interrogation of superheavy elements, and the development of atomic clocks of ever-increasing precision. The expected benefit will be to increase capability in fundamental physics tests and in the development of precision atomic instruments.Read moreRead less
Targeting chloroplasts to enhance crop salt tolerance. Yield losses in crop plants due to increasingly saline soils are linked to the effects of salt on chloroplasts. By comparing chloroplast water- and salt-transport mechanisms of closely related salt-loving and salt-sensitive plants, this Fellowships aims to discover how chloroplasts maintain function in saline conditions. Novel biophysics and molecular techniques will be used to characterise transporters in model plants, and proof-of-concept ....Targeting chloroplasts to enhance crop salt tolerance. Yield losses in crop plants due to increasingly saline soils are linked to the effects of salt on chloroplasts. By comparing chloroplast water- and salt-transport mechanisms of closely related salt-loving and salt-sensitive plants, this Fellowships aims to discover how chloroplasts maintain function in saline conditions. Novel biophysics and molecular techniques will be used to characterise transporters in model plants, and proof-of-concept complementation experiments aim to confer salt tolerance on sensitive plants. These fundamental insights are likely to lead to rapid, step-change improvements in salt tolerance, especially in agriculturally relevant crops, to benefit Australia’s agri-industry and ensure food security in the future.Read moreRead less
Understanding physics through flexible calculations. This project aims to explore and interpret physics at the high energy frontier with calculations and computational techniques. It will develop and apply techniques and software to arbitrary physics models and make predictions in models. This will expand the set of ideas that can be rigorously scrutinised using data from collider and astrophysical experiments. This may shed light on the origin of dark matter and why the Higgs mass is so light, ....Understanding physics through flexible calculations. This project aims to explore and interpret physics at the high energy frontier with calculations and computational techniques. It will develop and apply techniques and software to arbitrary physics models and make predictions in models. This will expand the set of ideas that can be rigorously scrutinised using data from collider and astrophysical experiments. This may shed light on the origin of dark matter and why the Higgs mass is so light, and expand understanding of nature at the most foundational level.Read moreRead less
Discovering new physics with the Large Hadron Collider. This project aims to apply and develop new methods of machine learning to particle physics beyond the Standard Model. The project will develop high-end analytical and computational techniques necessary to analyse particle physics results from the Large Hadron Collider. These techniques should enable exciting new measurements to be carried out, enhance the likelihood of discovering new phenomena in current and future particle colliders, and ....Discovering new physics with the Large Hadron Collider. This project aims to apply and develop new methods of machine learning to particle physics beyond the Standard Model. The project will develop high-end analytical and computational techniques necessary to analyse particle physics results from the Large Hadron Collider. These techniques should enable exciting new measurements to be carried out, enhance the likelihood of discovering new phenomena in current and future particle colliders, and rule out incorrect theories.Read moreRead less
Explaining the dark matter small-scale crisis with spectral distortions. This project aims to explain the nature of dark matter and provide a solution to the so-called small-scale crisis. The "cold dark matter" model provides an excellent fit to observations of the universe on the largest scales. Yet, it appears to be in conflict with current understanding of how small structures such as dwarf galaxies form. This project expects to determine the distortions to the blackbody spectrum of the cosmi ....Explaining the dark matter small-scale crisis with spectral distortions. This project aims to explain the nature of dark matter and provide a solution to the so-called small-scale crisis. The "cold dark matter" model provides an excellent fit to observations of the universe on the largest scales. Yet, it appears to be in conflict with current understanding of how small structures such as dwarf galaxies form. This project expects to determine the distortions to the blackbody spectrum of the cosmic microwave background (CMB) photons due to different solutions to this small-scale crisis. The expected outcome is to open an observational pathway to test these solutions with the future CMB observations. This project will provide significant contribution to both particle physics and astrophysics/astronomy, and will advance Australia’s knowledge base in fundamental science beyond the immediate goal of clarifying small-scale problems of cold dark matter.Read moreRead less
Improving disease resilience in ecosystems using synthetic biology. This project aims to use the latest methods in synthetic biology to conserve species threatened by disease, through characterising and enhancing immunity. Emerging infectious diseases are a major threat to ecosystems and new methodologies are needed to fight them. Chytridiomycosis is the most devastating disease of vertebrates, causing population declines in over 200 amphibian species worldwide. The expected outcomes of the proj ....Improving disease resilience in ecosystems using synthetic biology. This project aims to use the latest methods in synthetic biology to conserve species threatened by disease, through characterising and enhancing immunity. Emerging infectious diseases are a major threat to ecosystems and new methodologies are needed to fight them. Chytridiomycosis is the most devastating disease of vertebrates, causing population declines in over 200 amphibian species worldwide. The expected outcomes of the project are improved understanding and increased immunity of frogs to chytridiomycosis and restoration of frogs into the environment. The project will demonstrate the usefulness of synthetic biology to tackle disease and preserve biodiversity in the landscape for similarly threatened wildlife in Australia and overseas.Read moreRead less
Converging on new particles and fundamental symmetries. The goal of this project is to test theories for new particles and fundamental symmetries. By using advanced computational and statistical methods to combine all relevant data from many different experiments with a large number of different theoretical predictions, it expects to reveal just how well different theories actually describe reality. This will help us to understand what new particles and fundamental symmetries exist beyond thos ....Converging on new particles and fundamental symmetries. The goal of this project is to test theories for new particles and fundamental symmetries. By using advanced computational and statistical methods to combine all relevant data from many different experiments with a large number of different theoretical predictions, it expects to reveal just how well different theories actually describe reality. This will help us to understand what new particles and fundamental symmetries exist beyond those we already know. It will lead to new algorithms and computational methods in machine learning and statistical sampling, and will train a cohort of graduates highly skilled in statistical data science and research computing.Read moreRead less
Targeting root architecture to improve plant production in sub-optimal soil. This project aims to identify important missing links in the signalling pathways that connect major plant hormones in their control of root architecture, with a focus on the signalling system that helps plants cope with sub-optimal growing conditions. New discoveries in plant hormones will be applied to crops to provide a deeper understanding of root growth responses under sub-optimal conditions, and to maximise plant e ....Targeting root architecture to improve plant production in sub-optimal soil. This project aims to identify important missing links in the signalling pathways that connect major plant hormones in their control of root architecture, with a focus on the signalling system that helps plants cope with sub-optimal growing conditions. New discoveries in plant hormones will be applied to crops to provide a deeper understanding of root growth responses under sub-optimal conditions, and to maximise plant efficiency. Expected outcomes include a better understanding of signal pathways in roots, improved knowledge about how crops respond to adverse conditions, new knowledge and potential genetic resources for plant industry, and novel ideas about how to improve crop productivity.Read moreRead less