Magnetic walls as nano-manipulators for physics, bio- and medical technologies. The focus of this project is the development of new scientific and technological aspects of nanomanipulators allowing not only the effective control of molecules and other magnetic quantities for a new approach in computation, but also the vital influence of biological processes at the molecular level. The outlook of this idea becomes increasingly promising in science and a broad range of industries (electronics, mat ....Magnetic walls as nano-manipulators for physics, bio- and medical technologies. The focus of this project is the development of new scientific and technological aspects of nanomanipulators allowing not only the effective control of molecules and other magnetic quantities for a new approach in computation, but also the vital influence of biological processes at the molecular level. The outlook of this idea becomes increasingly promising in science and a broad range of industries (electronics, materials engineering, nanotechnology and biotechnology). This project will establish Australia's capability at the forefront in this rapidly advancing area. The outcomes predicted may soon lead to the development of practical devices, where Australian science and industry may play one of the key roles.Read moreRead less
Advanced Laser, Sensor and Diagnostic Technologies Using New Generation Micro- and Nano- Structured Fibres and Gratings. The project aims to provide the next generation of laser and sensor technologies, benefiting not only advanced instrument industries but also others involved with materials processing, sensing diagnostics, biomedicine and defence. The search for a universal model of light interactions with all photosensitive materials, coupled with a demonstration of nanotechnology within a fi ....Advanced Laser, Sensor and Diagnostic Technologies Using New Generation Micro- and Nano- Structured Fibres and Gratings. The project aims to provide the next generation of laser and sensor technologies, benefiting not only advanced instrument industries but also others involved with materials processing, sensing diagnostics, biomedicine and defence. The search for a universal model of light interactions with all photosensitive materials, coupled with a demonstration of nanotechnology within a fibre, will lead to new gratings and fibres that underpin these technologies as well as open up new techniques and processes such as practical radiation hardening of optical waveguides.Read moreRead less
Laboratory in a Fibre: diagnostic, sensing and telecommunications technologies. The lab-in-a-fibre aims to provide the next generation of diagnostic, sensing and telecommunications technologies. Mass production of km long optical fibre platforms for the lab-in-a-fibre offers cost competitive alternative to lab-on-a-chip technologies in applications where several diagnostic, sensing processes or component technologies are required. It will benefit not only advanced instrument industries but also ....Laboratory in a Fibre: diagnostic, sensing and telecommunications technologies. The lab-in-a-fibre aims to provide the next generation of diagnostic, sensing and telecommunications technologies. Mass production of km long optical fibre platforms for the lab-in-a-fibre offers cost competitive alternative to lab-on-a-chip technologies in applications where several diagnostic, sensing processes or component technologies are required. It will benefit not only advanced instrument industries but also others involved with materials processing, sensing diagnostics, biomedicine and defence. The overall integration within the program will provide the mechanism to create new, highly skilled Australian industries.Read moreRead less
The Development of Quantum Gravity. This research constitutes the first large-scale effort to unpack and make sense of the development of quantum gravity. Given the pressing nature of this problem and its importance for our worldview, such a study would be of great benefit to several sectors of the academic community. By giving a global perspective of the field from its origins those outside the field will be able to appreciate its importance and its place in contemporary physics. Quantum gravi ....The Development of Quantum Gravity. This research constitutes the first large-scale effort to unpack and make sense of the development of quantum gravity. Given the pressing nature of this problem and its importance for our worldview, such a study would be of great benefit to several sectors of the academic community. By giving a global perspective of the field from its origins those outside the field will be able to appreciate its importance and its place in contemporary physics. Quantum gravity researchers will be able to see how their preferred approach fits into the web of research programmes, thus opening the door for greater collaboration between the various approaches. This research will greatly enhance Australia's position in this breakthrough science.Read moreRead less
Synchrotron radiation techniques applied to melting and resolidification at a nanometric scale. By delivering underpinning knowledge of melting characteristics of nanoparticles, the proposal seeks results that can lead to breakthrough applications in advanced materials engineering. Measurements of the liquid nanoparticle structure performed at the Australian Synchrotron are unprecedented and are thus likely to include the development of new methodology. National and international exposure of Aus ....Synchrotron radiation techniques applied to melting and resolidification at a nanometric scale. By delivering underpinning knowledge of melting characteristics of nanoparticles, the proposal seeks results that can lead to breakthrough applications in advanced materials engineering. Measurements of the liquid nanoparticle structure performed at the Australian Synchrotron are unprecedented and are thus likely to include the development of new methodology. National and international exposure of Australian science and the Australian Synchrotron will have both scientific and economic ramifications. Involvement of students will contribute to developing the local synchrotron knowledge base and is beneficial to the Australian synchrotron-research community as a whole.Read moreRead less
Optimisation of the electrical and optical properties of ZnO nanowires for advanced nanodevice applications. It is widely accepted that nanowires and related structures will provide the key for the construction of future functional nano-devices with unprecedented performance. In this project we will develop robust protocols for the fabrication of ZnO nanowires in the lab which can be meet the needs of specific nanotechnology and nanodevice applications and once established these growth technique ....Optimisation of the electrical and optical properties of ZnO nanowires for advanced nanodevice applications. It is widely accepted that nanowires and related structures will provide the key for the construction of future functional nano-devices with unprecedented performance. In this project we will develop robust protocols for the fabrication of ZnO nanowires in the lab which can be meet the needs of specific nanotechnology and nanodevice applications and once established these growth techniques can reconfigured for industrial scale fabrication. Development of these nanowire growth techniques will enable Australia to be at the leading edge in the rapidly emerging field of nano-science and nano-technology.Read moreRead less
Development of Low Cost, High Quality Nitrides for Solid-State Lighting and Other Power Saving Applications. The advent of high brightness, low cost, compact, low power white light-emitting diodes (LEDs) will revolutionise lighting as we currently know it. Incandescent light bulbs and fluorescent tubes are inefficient light sources and their replacement with high efficiency solid state LED lighting over the next 10 years will provide a 10% reduction in global greenhouse gas emissions. The develo ....Development of Low Cost, High Quality Nitrides for Solid-State Lighting and Other Power Saving Applications. The advent of high brightness, low cost, compact, low power white light-emitting diodes (LEDs) will revolutionise lighting as we currently know it. Incandescent light bulbs and fluorescent tubes are inefficient light sources and their replacement with high efficiency solid state LED lighting over the next 10 years will provide a 10% reduction in global greenhouse gas emissions. The development and enhancement of a recent Australian innovation for the fabrication of low cost high brightness LEDs will enable Australia to be at the frontier of this technology and to be a world leader in the next stage of its development.Read moreRead less
Poly-crystalline Thin Films for LASER Applications. This project is based on a recent discovery which reports LASER emission in disordered media such as polycrystalline ZnO. This behaviour appears to be related to the crystallographic properties of ZnO (wurztite) material. Using a novel deposition process the defect density, size of crystallites and macroscopic orientation within such thin films will be controlled independently. This will provide an opportunity to study the fundamental basis of ....Poly-crystalline Thin Films for LASER Applications. This project is based on a recent discovery which reports LASER emission in disordered media such as polycrystalline ZnO. This behaviour appears to be related to the crystallographic properties of ZnO (wurztite) material. Using a novel deposition process the defect density, size of crystallites and macroscopic orientation within such thin films will be controlled independently. This will provide an opportunity to study the fundamental basis of such behaviour. In conjunction with this the development of structure in similarly produced GaN (wurztite) films will be examined. This work should also provide practical information concerning the potential performance of LASER devices based on disordered materials.Read moreRead less
Time-asymmetry and the Bohmian view of the quantum world. Australia is among the world leaders in research on decoherence and time asymmetry. This research will make significant and innovative contributions to a unified understanding of these two areas by determining their connections and mutual implications. It will thus play an important role in further expanding Australia's role in fundamental research on the boundary between philosophy and physics. Results from this research will also be rel ....Time-asymmetry and the Bohmian view of the quantum world. Australia is among the world leaders in research on decoherence and time asymmetry. This research will make significant and innovative contributions to a unified understanding of these two areas by determining their connections and mutual implications. It will thus play an important role in further expanding Australia's role in fundamental research on the boundary between philosophy and physics. Results from this research will also be relevant to the theoretical and conceptual basis of next-generation quantum technologies.
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Drag Force on Bubbles and Particles in Turbulent Flows. Australian exports are dominated by the minerals, metallurgical and chemicals industries, with minerals exports worth at least $40 billion annually. Many of the production processes are underpinned by the complex interaction between particles, bubbles and liquids. It is important that we understand the complex interactions taking place. This will enable us to improve existing operations and also to design completely new technologies, especi ....Drag Force on Bubbles and Particles in Turbulent Flows. Australian exports are dominated by the minerals, metallurgical and chemicals industries, with minerals exports worth at least $40 billion annually. Many of the production processes are underpinned by the complex interaction between particles, bubbles and liquids. It is important that we understand the complex interactions taking place. This will enable us to improve existing operations and also to design completely new technologies, especially in the emerging fields of nano and biotechnology. This project is important because it adds to our knowledge in the national priority area of Transforming Australian Industries, and its success will ensure that our industries remain at the forefront of innovation and are globally competitive. Read moreRead less