Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668481
Funder
Australian Research Council
Funding Amount
$140,385.00
Summary
Time-resolved observation of highly transient events by a novel digital high-speed camera. Highly transient, that is, rapidly changing, events occur in nature and in almost every field of science and engineering. Knowledge and understanding of these processes is vital for the design of better and innovative machines, materials and instruments. Valuable insight into these processes can be gained if one can visualise them by means of high-speed photography. This application seeks the acquisition o ....Time-resolved observation of highly transient events by a novel digital high-speed camera. Highly transient, that is, rapidly changing, events occur in nature and in almost every field of science and engineering. Knowledge and understanding of these processes is vital for the design of better and innovative machines, materials and instruments. Valuable insight into these processes can be gained if one can visualise them by means of high-speed photography. This application seeks the acquisition of a novel and unique digital camera system that would allow one to observe rapidly occurring processes with unprecedented clarity. The availability of such a system would significantly strengthen cutting-edge research activities in various disciplines that would ultimately lead to the development of original and innovative products.Read moreRead less
Carrier dynamics in III-V semiconductor quantum dots and nanostructures. Quantum dots and related nanostructures are one of the most attractive topics in the recently years. This project will investigate the role of carrier dynamics in these nanostructures by using state-of-the-art ultrafast spectroscopy techniques. The wealth of information obtained from this study will not only enhance our knowledge base but also allow us to design high performance QD lasers and detectors and to demonstrate in ....Carrier dynamics in III-V semiconductor quantum dots and nanostructures. Quantum dots and related nanostructures are one of the most attractive topics in the recently years. This project will investigate the role of carrier dynamics in these nanostructures by using state-of-the-art ultrafast spectroscopy techniques. The wealth of information obtained from this study will not only enhance our knowledge base but also allow us to design high performance QD lasers and detectors and to demonstrate innovative optoelectronic devices for optical communication systems as well as quantum information processing. It will ensure that Australia is at the cutting edge of nanotechnology and optoelectronics research.Read moreRead less
Microanalysis of novel carbon thin films. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. Electrical devices can be fabricated with these films suitab ....Microanalysis of novel carbon thin films. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. Electrical devices can be fabricated with these films suitable for use in compact electrical devices requiring high current density. This project will add to the techniques used for the analysis of carbon coatings being developed in Australia. Read moreRead less
Optoelectronic properties of low-dimensional semiconductor systems and semiconductor nanostructures under terahertz free-electron laser radiation. The recent application of terahertz (THz) free-electron lasers (FELs) to scientific investigation into low-dimensional semiconductor systems and semiconductor nanostructures has opened up a new field of research in semiconductor optoelectronics. This project will conduct a joint experimental and theoretical study of how these novel systems interact w ....Optoelectronic properties of low-dimensional semiconductor systems and semiconductor nanostructures under terahertz free-electron laser radiation. The recent application of terahertz (THz) free-electron lasers (FELs) to scientific investigation into low-dimensional semiconductor systems and semiconductor nanostructures has opened up a new field of research in semiconductor optoelectronics. This project will conduct a joint experimental and theoretical study of how these novel systems interact with intense THz laser fields. Experimentally, we plan to use Beijing FELs in China to study optoelectronic properties in GaAs-and GaN based systems. Theoretically, we intend developing fundamental new approaches to theory of electron interactions with intense laser fields in semiconductors and relating theoretical results to experiments and experimental findings.Read moreRead less
ARC Centre of Excellence - Centre for Antimatter-Matter Studies. While our world is made of matter, all particles have anti-particles and the most abundant is the positron, the electron's antiparticle. It is the "workshop" for most anti-matter studies, particularly for the characterization of materials, including gases, polymers, insulators, thin films and surfaces, as well as the development of new and novel, nano-structured materials. The ARC Centre of Excellence in Antimatter-Matter Studies ....ARC Centre of Excellence - Centre for Antimatter-Matter Studies. While our world is made of matter, all particles have anti-particles and the most abundant is the positron, the electron's antiparticle. It is the "workshop" for most anti-matter studies, particularly for the characterization of materials, including gases, polymers, insulators, thin films and surfaces, as well as the development of new and novel, nano-structured materials. The ARC Centre of Excellence in Antimatter-Matter Studies (CAMS) will bring together key Australian and international scientists to work in this emerging scientific field of antimatter-matter interactions. It will forge a unique and effective scientific team for state-of-the-art studies of the nano-world that underlies many everyday processes and new technologies.Read moreRead less
Boron Nitride Nanotub Synthesis and Applications. Boron nitride (BN) nanotubes have an analogous structure to carbon nanotubes but offer many electronic and chemical properties. This project aims to synthesis BN nanotubes with controlled structures using a mechano-thermal method involving ball milling of boron powder at room temperature followed by thermal annealing in nitrogen gas. Systematic investigation will be conducted to clarify the fundamental formation mechanism related to various nano ....Boron Nitride Nanotub Synthesis and Applications. Boron nitride (BN) nanotubes have an analogous structure to carbon nanotubes but offer many electronic and chemical properties. This project aims to synthesis BN nanotubes with controlled structures using a mechano-thermal method involving ball milling of boron powder at room temperature followed by thermal annealing in nitrogen gas. Systematic investigation will be conducted to clarify the fundamental formation mechanism related to various nanostructures. New chemical, mechanical and thermal properties and possible applications will be explored. The outcomes of this research will be profoundly understanding of the controlled assembly of small atoms into nanosized tubules and an innovative synthesis technology.Read moreRead less
Diamond Quantum Dots Fabricated By Ion Implantation. For centuries scientists have been fascinated by the 'alchemy' of transforming carbon into diamond. This project aims to fabricate diamond nanocrystals embedded in a glass matrix by direct carbon ion implantation followed by thermal annealing. Unlike other methods of making diamond, the coalescence of carbon into diamond occurs under heating in a conventional furnace and does not require the application of high external pressures or any pre-ex ....Diamond Quantum Dots Fabricated By Ion Implantation. For centuries scientists have been fascinated by the 'alchemy' of transforming carbon into diamond. This project aims to fabricate diamond nanocrystals embedded in a glass matrix by direct carbon ion implantation followed by thermal annealing. Unlike other methods of making diamond, the coalescence of carbon into diamond occurs under heating in a conventional furnace and does not require the application of high external pressures or any pre-existing diamond template. We outline a scheme to exploit the properties of these crystals for novel applications in quantum devices.Read moreRead less
Microscopic Origin of the Enhanced Flux Pinning in Nano-Doped MgB2 Superconductors. Magnesium diboride (MgB2) has advantages over other superconductors in terms of high performance and low costs for a wide range of applications, such as superconducting power cables, superconducting magnetic energy-storage devices, transformers, fault current limiters and motors. Besides the apparent economic benefits, the application of superconductivity will significantly reduce the green-house gas emission. Th ....Microscopic Origin of the Enhanced Flux Pinning in Nano-Doped MgB2 Superconductors. Magnesium diboride (MgB2) has advantages over other superconductors in terms of high performance and low costs for a wide range of applications, such as superconducting power cables, superconducting magnetic energy-storage devices, transformers, fault current limiters and motors. Besides the apparent economic benefits, the application of superconductivity will significantly reduce the green-house gas emission. This project will advance the practical applications of MgB2 by understanding the mechanism to improve critical current density.Read moreRead less
Swift Heavy Ion Tracks in Semiconductors and Insulators: New Insights using Synchrotron Scattering Experiments. The proposed research will broaden the domestic knowledge base and enhance the national research profile in an important cross-disciplinary and technologically-relevant field with a potential high impact in areas with considerable national activity. It will train young scientists, particularly in the use of two national facilities: the Australian Synchrotron and the ANU Heavy-Ion Accel ....Swift Heavy Ion Tracks in Semiconductors and Insulators: New Insights using Synchrotron Scattering Experiments. The proposed research will broaden the domestic knowledge base and enhance the national research profile in an important cross-disciplinary and technologically-relevant field with a potential high impact in areas with considerable national activity. It will train young scientists, particularly in the use of two national facilities: the Australian Synchrotron and the ANU Heavy-Ion Accelerator facility. Furthermore, domestic capabilities in materials characterization will be bolstered and the collaboration with overseas investigators will facilitate mutually beneficial transfer of expertise. The proposal is consistent with National Research Priority 3 and the Priority Goals: Breakthrough Science and Frontier Technologies. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775637
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
An Australian Attosecond Science Facility. The laser facility requested here will provide Australian researchers with the ability to take snapshots of physical and biological processes at unprecedented time resolution. Such a facility will enable Australian researchers to remain competitive and continue to contribute significantly to scientific research on an international scale. The facility will provide excellent training for research higher degree students, preparing them for work in high-tec ....An Australian Attosecond Science Facility. The laser facility requested here will provide Australian researchers with the ability to take snapshots of physical and biological processes at unprecedented time resolution. Such a facility will enable Australian researchers to remain competitive and continue to contribute significantly to scientific research on an international scale. The facility will provide excellent training for research higher degree students, preparing them for work in high-tech industries based on cutting-edge discoveries in physics and biology.Read moreRead less