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
Low power optical limiting for laser receiver protection. This project will place Australia as one of the leaders in the world in both science and technology of soft glass Photonic Band Gap Fibres, which is an enabling field of research with enormous number applications in Medicine, Defence, communication, etc. The project will develop a critical component (receiver protection) for laser range finders, which are widely being used in defence industries, therefore having national benefit in terms ....Low power optical limiting for laser receiver protection. This project will place Australia as one of the leaders in the world in both science and technology of soft glass Photonic Band Gap Fibres, which is an enabling field of research with enormous number applications in Medicine, Defence, communication, etc. The project will develop a critical component (receiver protection) for laser range finders, which are widely being used in defence industries, therefore having national benefit in terms of safeguarding Australia. The project will also be an excellent vehicle for educating young physicists and engineers in Australia. This is of national importance in itself due to the current shortage of photonics physicists.Read moreRead less
Light-matter interactions using optical fibres. This program will allow Australia to build on established excellence in photonics to extend the impact of optical fibres beyond telecommunications to applications throughout the sciences. Pioneering work on materials and structures will form a platform technology enabling innovations in areas as diverse as water quality monitoring and corrosion detection. In addition, new optical fibres will be developed for the needs of the Australian Defence Forc ....Light-matter interactions using optical fibres. This program will allow Australia to build on established excellence in photonics to extend the impact of optical fibres beyond telecommunications to applications throughout the sciences. Pioneering work on materials and structures will form a platform technology enabling innovations in areas as diverse as water quality monitoring and corrosion detection. In addition, new optical fibres will be developed for the needs of the Australian Defence Force and associated industries. Fibre-based approaches to problems in biology will ultimately lead to an improved understanding of molecular structures and new tools for manipulating biomolecules.Read moreRead less
New materials and structures for next generation optical fibres. A soft glass optical fibre capability of critical importance to Australia's industrial and scientific capability will be established. This facility addresses a range of the National Research Priorities, most notably Defence, and brings fundamentally important technology to Australia. The proposed research capability strategically complements existing Australian silica-based fibre expertise and infrastructure. The aim is to develop ....New materials and structures for next generation optical fibres. A soft glass optical fibre capability of critical importance to Australia's industrial and scientific capability will be established. This facility addresses a range of the National Research Priorities, most notably Defence, and brings fundamentally important technology to Australia. The proposed research capability strategically complements existing Australian silica-based fibre expertise and infrastructure. The aim is to develop soft glass fibres for defence applications, and to develop fibre-based solutions for emerging applications in bionanophotonics. A key attraction of the platform technology proposed is its adaptability for testing concepts without requiring the support of large-scale fabrication and production industries.Read moreRead less