Banning ideas, burning books: the dynamics of censorship in classical antiquity. How to balance the right to free speech and dissent against other legitimate concerns is an issue that is always with us. This project explores neglected literary evidence from antiquity to study responses to controversial ideas in order to enhance the modern debate on the limits of freedom of speech.
The Italian wars, 1494–1559. This project aims to re-evaluate the Italian Wars, a conflict fought between 1494 and 1559 mainly on the Italian peninsula but which reshaped the political map of early modern Europe. The project will investigate newly identified textual and material source to produce a big-event history. Its findings will have significant impact both scholarly and general communities, from identifying new textual and material sources for historical study to potential ramifications f ....The Italian wars, 1494–1559. This project aims to re-evaluate the Italian Wars, a conflict fought between 1494 and 1559 mainly on the Italian peninsula but which reshaped the political map of early modern Europe. The project will investigate newly identified textual and material source to produce a big-event history. Its findings will have significant impact both scholarly and general communities, from identifying new textual and material sources for historical study to potential ramifications for historical warfare interpretation in television, radio and gaming environments.Read moreRead less
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
Excitation spectra of quantum chromodynamics. Just as quantum electrodynamics describes the quantum mechanical excitation spectra of atomic systems, quantum chromodynamics (QCD) describes the excitation spectra of quark and gluon systems, such as the proton. This project will resolve the interactions underpinning the excitations of QCD, as being investigated at international facilities.
Elucidating the role of quantum electrodynamics in hadron properties. This project will explore the fundamental mechanisms of nature making the neutron heavier than the proton; governing which nuclei are stable; and determining the current state of the Universe. Drawing on substantial supercomputing resources made available through international collaboration, this project will perform the first ab-initio simulation combining the quantum field theories governing elementary quarks, gluons, electr ....Elucidating the role of quantum electrodynamics in hadron properties. This project will explore the fundamental mechanisms of nature making the neutron heavier than the proton; governing which nuclei are stable; and determining the current state of the Universe. Drawing on substantial supercomputing resources made available through international collaboration, this project will perform the first ab-initio simulation combining the quantum field theories governing elementary quarks, gluons, electrons and photons; namely quantum chromodynamics and quantum electrodynamics. This project will develop novel theoretical and numerical techniques to confront the otherwise elusive electromagnetic contributions to hadronic properties and in doing so, address a wide range of important aspects of hadron structure and interactions.Read moreRead less
Structure of Hadronic Excitations from Lattice Quantum Chromodynamics. Quantum chromodynamics describes the fundamental strong interactions between quarks and gluons as they compose hadrons such as the proton or neutron. Beyond these lowest-energy systems, the quantum mechanical excitation spectra display a rich and complex structure. Remarkably, little is known about the internal structure of these states. The central goal of this project is to unveil the nature of hadrons and their excited sta ....Structure of Hadronic Excitations from Lattice Quantum Chromodynamics. Quantum chromodynamics describes the fundamental strong interactions between quarks and gluons as they compose hadrons such as the proton or neutron. Beyond these lowest-energy systems, the quantum mechanical excitation spectra display a rich and complex structure. Remarkably, little is known about the internal structure of these states. The central goal of this project is to unveil the nature of hadrons and their excited states using the first principles approach of lattice gauge theory. By elucidating aspects of hadron structure in terms of the most fundamental non-perturbative quark and gluon fields, the project will create new knowledge impacting on renowned experimental programs at international facilities.Read moreRead less
Electromagnetic structure of hadronic excitations from lattice quantum chromodynamics. Just as quantum electrodynamics describes the quantum mechanical excitation spectra of atomic systems, quantum chromodynamics (QCD) describes the excitation spectra of quark and gluon systems, such as the proton. This project will resolve the internal structure of the low-lying excitations of QCD, as being investigated at international facilities.
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
Sub-wavelength light confinement. This project will introduce and demonstrate new concepts for confining and patterning light on sub-wavelength scales. Building on Australian expertise in optical fibre technologies, this fundamental research will enhance Australia's position at the forefront of international research in the nanoscale control of light. These concepts also promise to lead to patentable new tools for ultra high-resolution imaging and for manipulating materials. This project will en ....Sub-wavelength light confinement. This project will introduce and demonstrate new concepts for confining and patterning light on sub-wavelength scales. Building on Australian expertise in optical fibre technologies, this fundamental research will enhance Australia's position at the forefront of international research in the nanoscale control of light. These concepts also promise to lead to patentable new tools for ultra high-resolution imaging and for manipulating materials. This project will enhance Australia's international links, build on a range of national research programs, and provide training of researchers in photonics, which will be of benefit to Australian industry and research.Read moreRead less
Foundations of the nuclear force, nuclear structure and dynamics. This project aims to investigate a profound problem in physics: the structure and interactions of atomic nuclei in terms of their microscopic constituents. It is expected to generate new knowledge and improve our understanding of the structure and dynamics of nuclei, their formation in the cosmos, neutron star properties, and underpin future nuclear technologies. The project aims to leverage Australian capacity in nuclear theory t ....Foundations of the nuclear force, nuclear structure and dynamics. This project aims to investigate a profound problem in physics: the structure and interactions of atomic nuclei in terms of their microscopic constituents. It is expected to generate new knowledge and improve our understanding of the structure and dynamics of nuclei, their formation in the cosmos, neutron star properties, and underpin future nuclear technologies. The project aims to leverage Australian capacity in nuclear theory to produce the first predictive model with a modern realistic nuclear interaction. Significant benefits include an enhancement of research training capacity and new international links with the world's major laboratories. Read moreRead less