Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100194
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
Optical diagnostics for the investigation of high-speed energetic processes. Optical diagnostics for the investigation of high-speed energetic processes:
The project seeks to establish equipment to enable the investigation of high-speed energetic processes. Such processes, where large amounts of energy are released over a short time frame, occur in nature and almost every field of science and engineering, and their investigation is a formidable challenge. This challenge is designed to be met th ....Optical diagnostics for the investigation of high-speed energetic processes. Optical diagnostics for the investigation of high-speed energetic processes:
The project seeks to establish equipment to enable the investigation of high-speed energetic processes. Such processes, where large amounts of energy are released over a short time frame, occur in nature and almost every field of science and engineering, and their investigation is a formidable challenge. This challenge is designed to be met through the combined use of state-of-the-art flow visualisation, thermography and spectrometry equipment. These diagnostics would open avenues into so far impossible or difficult to conduct research on highly transient phenomena in various research fields, which include various aspects of fluid mechanics, combustion, and fracture mechanics. The equipment would be instrumental in the design of better and innovative machines, materials, instruments and processes.Read moreRead less
Crossing quantum-classical boundaries in a single particle. This project is aimed at constructing and observing an individual quantum system that can exhibit chaotic behaviour under controllable conditions. It is a long-sought goal of modern physics that can become reality for the first time in the world, thanks to the unique availability in Australia of the most quantum-coherent single spin ever made and a long history of theoretical advances in the field. Turning a spin into a chaotic system w ....Crossing quantum-classical boundaries in a single particle. This project is aimed at constructing and observing an individual quantum system that can exhibit chaotic behaviour under controllable conditions. It is a long-sought goal of modern physics that can become reality for the first time in the world, thanks to the unique availability in Australia of the most quantum-coherent single spin ever made and a long history of theoretical advances in the field. Turning a spin into a chaotic system will uncover the true nature of the quantum-classical boundary, and verify whether an underlying classical chaotic dynamics ultimately influences the behaviour of quantum systems. It is expected that the discoveries made will illuminate the path towards the technological exploitation of increasingly complex quantum devices.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101110
Funder
Australian Research Council
Funding Amount
$345,928.00
Summary
Popular Perceptions of Roman Emperors from Augustus to Theodosius I. This project aims to examine how Roman emperors were perceived by the inhabitants of their empire, from soldiers, slaves and freedmen to senatorial aristocrats. It has two main aims: to explain the different ways in which the emperors' military, judicial, religious and moral authority was conceived, interpreted and transmitted in the Roman world; and to analyse the continuities and changes in these aspects between the first and ....Popular Perceptions of Roman Emperors from Augustus to Theodosius I. This project aims to examine how Roman emperors were perceived by the inhabitants of their empire, from soldiers, slaves and freedmen to senatorial aristocrats. It has two main aims: to explain the different ways in which the emperors' military, judicial, religious and moral authority was conceived, interpreted and transmitted in the Roman world; and to analyse the continuities and changes in these aspects between the first and fourth centuries A.D. The significance of this study lies in its demonstration that the popular reception of imperial rule is crucial to understanding how and why the institution of emperorship endured in the Roman world. This outcome will enhance scholarly and public understanding of the Roman empire.Read moreRead less
The Vandal Renaissance: Latin Literature in Post-Roman Africa (435-534CE). The project aims to investigate the Latin literature of the Vandal kingdom of North Africa. It expects to identify a vibrant literary culture that celebrated multicultural diversity, embraced the Classical tradition, and contributed to Christian theology, while helping form a distinct Vandal identity. Expected outcomes include a more detailed understanding of the intellectual influences on Vandal African authors, the mech ....The Vandal Renaissance: Latin Literature in Post-Roman Africa (435-534CE). The project aims to investigate the Latin literature of the Vandal kingdom of North Africa. It expects to identify a vibrant literary culture that celebrated multicultural diversity, embraced the Classical tradition, and contributed to Christian theology, while helping form a distinct Vandal identity. Expected outcomes include a more detailed understanding of the intellectual influences on Vandal African authors, the mechanics of Vandal court patronage, and the breadth of these authors' contribution to the history of Latin literature. The project will benefit Australian culture by providing a detailed historical example of the benefits and challenges of a multicultural society.Read moreRead less
From Where the Fine Warships Come: Democratic Athens at War . This project aims to transform our understanding of classical Athens. This Greek state is famous for developing democracy to an extremely high level and for being the leading cultural innovator of classical Greece. Less well known is the dark side of this success story. Athens revolutionised warfare, killing tens of thousands of combatants and civilians. There is a good case that democracy itself sustained this military record. But th ....From Where the Fine Warships Come: Democratic Athens at War . This project aims to transform our understanding of classical Athens. This Greek state is famous for developing democracy to an extremely high level and for being the leading cultural innovator of classical Greece. Less well known is the dark side of this success story. Athens revolutionised warfare, killing tens of thousands of combatants and civilians. There is a good case that democracy itself sustained this military record. But this case has hardly ever been studied. By filling this big gap in our knowledge this project will be highly significant. It will massively increase capacities in research training and international collaboration. The benefits will include new ideas for better understanding the wars that democracies wage today. Read moreRead less
Heisenberg-limited lasers: building the revolution. The project aims to design and build a revolutionary new type of laser based on the ground-breaking 2020 Nature Physics paper by the two Chief Investigators. The significance of this work is that it overturns 60 years of theory about the limits to laser coherence, by applying 21st century quantum theory and quantum technology to the problem. This project expects to greatly advance the theory and, by instigating a collaboration with world-leadin ....Heisenberg-limited lasers: building the revolution. The project aims to design and build a revolutionary new type of laser based on the ground-breaking 2020 Nature Physics paper by the two Chief Investigators. The significance of this work is that it overturns 60 years of theory about the limits to laser coherence, by applying 21st century quantum theory and quantum technology to the problem. This project expects to greatly advance the theory and, by instigating a collaboration with world-leading experimentalists working with superconducting quantum devices, to demonstrate a laser with coherence beyond what was thought possible. Benefits of the project should flow from the manifold applications for highly coherent radiation, including scaling up superconducting quantum computing.Read moreRead less
Modelling quantum dynamics of electronic excited states in complex molecular materials. Understanding new materials that are the basis of new sources of renewable energy sources represents a major scientific challenge. Many of these materials are composed of large organic molecules containing hundreds of atoms. Their properties and the concepts needed to understand these materials are distinctly different from semiconductors such as silicon. This research will enhance our ability to design bett ....Modelling quantum dynamics of electronic excited states in complex molecular materials. Understanding new materials that are the basis of new sources of renewable energy sources represents a major scientific challenge. Many of these materials are composed of large organic molecules containing hundreds of atoms. Their properties and the concepts needed to understand these materials are distinctly different from semiconductors such as silicon. This research will enhance our ability to design better materials and optimize the performance of organic solar cells and LEDs. Australia's capacity for research and development in this scientifically challenging and technologically important field will be enhanced by this project. Read moreRead less
Securing the quantum internet with high-dimensional quantum systems. This project aims to develop experimental and theoretical tools for increasing security in the future quantum networks. This project expects to generate new knowledge in the area of quantum communication by leveraging on the properties of high-dimensional quantum systems. Expected outcomes of this project include novel protocols for quantum secret sharing that are resistant to experimental noise and an experimental implementati ....Securing the quantum internet with high-dimensional quantum systems. This project aims to develop experimental and theoretical tools for increasing security in the future quantum networks. This project expects to generate new knowledge in the area of quantum communication by leveraging on the properties of high-dimensional quantum systems. Expected outcomes of this project include novel protocols for quantum secret sharing that are resistant to experimental noise and an experimental implementation of such protocols. This should provide significant benefits to the development of the quantum internet and its security.Read moreRead less
Reaching new frontiers of quantum fields and gravity through deformations. This project aims to reach new frontiers in quantum field and gravity theories. These underpin systems ranging from semi-conductors to particle collisions and the quantum behavior of black holes. An obstacle is that these theories are notoriously hard to solve. This project proposes to tackle this longstanding problem by using new deformations, symmetries and dualities that have attracted widespread attention. Expected ou ....Reaching new frontiers of quantum fields and gravity through deformations. This project aims to reach new frontiers in quantum field and gravity theories. These underpin systems ranging from semi-conductors to particle collisions and the quantum behavior of black holes. An obstacle is that these theories are notoriously hard to solve. This project proposes to tackle this longstanding problem by using new deformations, symmetries and dualities that have attracted widespread attention. Expected outcomes will include innovative techniques that will greatly enhance and interconnect our knowledge of field theories and quantum gravity, together with new discoveries in quantum-corrected geometries. A new network of domestic and international experts will largely benefit the fields of theoretical and mathematical physics.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668398
Funder
Australian Research Council
Funding Amount
$177,900.00
Summary
Advanced Microwave Facility for Quantum-Atom Optics. Atoms can be controlled using light in visible and infra-red regions, as well as electromagnetic waves of longer wavelength in the microwave (MW) and radiofrequency (RF) part of the spectrum. We presently use optical radiation to control atoms at the quantum level where they can behave like waves and can interact with light to store and manipulate information. The MW and RF facility will extend our abilities and enable more complete control of ....Advanced Microwave Facility for Quantum-Atom Optics. Atoms can be controlled using light in visible and infra-red regions, as well as electromagnetic waves of longer wavelength in the microwave (MW) and radiofrequency (RF) part of the spectrum. We presently use optical radiation to control atoms at the quantum level where they can behave like waves and can interact with light to store and manipulate information. The MW and RF facility will extend our abilities and enable more complete control of the atoms, which will help us develop the first generation quantum technology. This will enable the creation of quantum devices such as atom lasers, atom interferometers and quantum information networks for communication and ultra-sensitive measurement applications.Read moreRead less