Unravelling the neutron lifetime puzzle with lattice quantum chromodynamics. This project will perform supercomputer simulations to confront one of the outstanding puzzles of nuclear and particle physics, the neutron lifetime. New knowledge will be generated through the development of novel theoretical and numerical techniques to increase the precision of the leading theoretical inputs required to predict the neutron lifetime. The outcomes will provide crucial theoretical guidance into understan ....Unravelling the neutron lifetime puzzle with lattice quantum chromodynamics. This project will perform supercomputer simulations to confront one of the outstanding puzzles of nuclear and particle physics, the neutron lifetime. New knowledge will be generated through the development of novel theoretical and numerical techniques to increase the precision of the leading theoretical inputs required to predict the neutron lifetime. The outcomes will provide crucial theoretical guidance into understanding the neutron; helping to guide the next-generation neutron experiments, from particle physics to applications in advanced materials science. The results will have immediate benefit by resolving the neutron lifetime puzzle, while enabling Australian scientists to take a leadership role in this area of fundamental science.Read moreRead less
Strategic Friendship: Anglo-German Cooperation in the Asia-Pacific Region. This project aims to investigate the untold history of Anglo-German cooperation in the Asia-Pacific region through hitherto neglected German archival materials. These materials point to thriving and thick webs of mutual assistance in cultural, scientific, economic, military and political affairs that successfully weakened local sovereignty but ended abruptly with World War One. The project expects to produce a new history ....Strategic Friendship: Anglo-German Cooperation in the Asia-Pacific Region. This project aims to investigate the untold history of Anglo-German cooperation in the Asia-Pacific region through hitherto neglected German archival materials. These materials point to thriving and thick webs of mutual assistance in cultural, scientific, economic, military and political affairs that successfully weakened local sovereignty but ended abruptly with World War One. The project expects to produce a new history challenging century-long Anglophone understandings of Anglo-German antagonism in the Asia-Pacific region. Its benefits include providing new knowledge of the history of great power relations in the Asia-Pacific region and establishing an improved historical framework for understanding strategic cooperation in our region.Read moreRead less
Monarchy, democracy and empire: German imperial policy before 1914. This project aims to improve knowledge of the history of constitutional monarchy as a political form outside of Britain. It asks who drove Germany's global imperialist foreign policy prior to World War One and how they did so. By studying the contest for power between the German monarch and other arms of the state and society, the project will establish the effects of political change on the German Empire. Laying bare the tensio ....Monarchy, democracy and empire: German imperial policy before 1914. This project aims to improve knowledge of the history of constitutional monarchy as a political form outside of Britain. It asks who drove Germany's global imperialist foreign policy prior to World War One and how they did so. By studying the contest for power between the German monarch and other arms of the state and society, the project will establish the effects of political change on the German Empire. Laying bare the tension between the royal prerogative and the constitutional state prior to 1914, this project explains how the struggle between the principles of monarchy and democracy was reflected in the history of Europe's imperial rivalries.Read moreRead less
A New Approach to the Structure of Atomic Nuclei. Starting at the quark level, we have derived a theory of nuclear structure, that in its initial application appears extremely successful. The aim of this project is to advance this revolutionary new approach to the theory of nuclear structure to the next level by exploring its predictions for a number of outstanding questions in modern nuclear physics. This includes the properties of superheavy nuclei, with atomic number beyond 100, including the ....A New Approach to the Structure of Atomic Nuclei. Starting at the quark level, we have derived a theory of nuclear structure, that in its initial application appears extremely successful. The aim of this project is to advance this revolutionary new approach to the theory of nuclear structure to the next level by exploring its predictions for a number of outstanding questions in modern nuclear physics. This includes the properties of superheavy nuclei, with atomic number beyond 100, including the potential existence of a new region of stability and complementing experimental searches underway internationally to discover the limits of stability with large neutron or proton excess, which is crucial to understanding the origin of the elements and may contribute new energy related technology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101526
Funder
Australian Research Council
Funding Amount
$364,560.00
Summary
How Republics Die: Rome's democratic breakdown in the first century BCE. This project aims to use recent political science scholarship on democratic breakdown and the threat of a competitive authoritarian regime in Trump’s US to analyse the breakdown of the Roman Republic in the 50s BCE under Caesar and Pompey. Expected outcomes include a better understanding of how and why constitutional government collapsed in Rome, using language and concepts directly transferable to our own fragile democracy ....How Republics Die: Rome's democratic breakdown in the first century BCE. This project aims to use recent political science scholarship on democratic breakdown and the threat of a competitive authoritarian regime in Trump’s US to analyse the breakdown of the Roman Republic in the 50s BCE under Caesar and Pompey. Expected outcomes include a better understanding of how and why constitutional government collapsed in Rome, using language and concepts directly transferable to our own fragile democracy. This should benefit the study of Roman history at all levels and provide historians and political scientists with a unique dataset for analysing how a centuries-old democracy fell into authoritarian rule.Read moreRead less
Non-equilibrium presolvation electron processes at the gas-liquid interface. The interaction of low-temperature plasma electrons with liquids has served as a reducing agent in various technological applications in water treatment, agriculture, biofuels and medicine. Predictive control of the plasma-liquid interface is essential to unlocking the potential of these applications, and this has been limited by the absence of the relevant non-equilibrium transport theory describing electrons at the pl ....Non-equilibrium presolvation electron processes at the gas-liquid interface. The interaction of low-temperature plasma electrons with liquids has served as a reducing agent in various technological applications in water treatment, agriculture, biofuels and medicine. Predictive control of the plasma-liquid interface is essential to unlocking the potential of these applications, and this has been limited by the absence of the relevant non-equilibrium transport theory describing electrons at the plasma-liquid interface together with fundamental data describing electron interactions with liquids. The project will develop a state of the art presolvation electron transport model informed by world first measurements of electron cross-sections for radicals and liquids and apply it to model plasma electrochemistry processes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100625
Funder
Australian Research Council
Funding Amount
$446,700.00
Summary
Integrated slab-mode beam engineering for handheld terahertz systems. Current dominant system architectures for terahertz waves are adapted from other ranges, leading to critical bottlenecks. This project will address this with a new integration platform that is tailored to the particular needs of terahertz waves. This requires advances in the emerging field of micro-scale integrated optics, combined with antenna-theory principles, semiconductor science, and advanced microfabrication to incorpor ....Integrated slab-mode beam engineering for handheld terahertz systems. Current dominant system architectures for terahertz waves are adapted from other ranges, leading to critical bottlenecks. This project will address this with a new integration platform that is tailored to the particular needs of terahertz waves. This requires advances in the emerging field of micro-scale integrated optics, combined with antenna-theory principles, semiconductor science, and advanced microfabrication to incorporate active devices. Novel spatially-dependent dispersion engineering techniques will also be pioneered for phased-array-free beamforming. This will enable a broad variety of all-in-one handheld systems for practical applications of terahertz waves such as noninvasive standoff sensing and self-aligning wireless links.Read moreRead less
Australia’s first direct-detection dark matter search, at Stawell Gold Mine. This project aims to develop an underground integrated laboratory at Stawell Gold Mine in Victoria to host the Southern Hemisphere's first-ever direct-detection dark matter experiment. Following the Higgs boson discovery, the direct detection of dark matter is seen as the next major challenge for particle physics. This project sees Australian physicists team up with local and international partners in research and indus ....Australia’s first direct-detection dark matter search, at Stawell Gold Mine. This project aims to develop an underground integrated laboratory at Stawell Gold Mine in Victoria to host the Southern Hemisphere's first-ever direct-detection dark matter experiment. Following the Higgs boson discovery, the direct detection of dark matter is seen as the next major challenge for particle physics. This project sees Australian physicists team up with local and international partners in research and industry to join the search for dark matter. This Australian experiment aims to help to confirm or deny current results from Northern Hemisphere experiments. As the mine nears the end of its working life as a gold mine, this project is expected to benefit the local economy and provide opportunities for education and outreach.Read moreRead less