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
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
Untangling Complex Molecular Spectra with an Optical Frequency Comb. The exhaled breath is a rich source of information about the inner life of the human body - but untangling this complicated molecular mixture into a quantitative measurement of its constituent components is currently an unsolved problem. This project aims to develop a new instrument that leverages the Nobel Prize winning technology of the optical frequency comb to enable analysis of such mixtures. It is expected that by combini ....Untangling Complex Molecular Spectra with an Optical Frequency Comb. The exhaled breath is a rich source of information about the inner life of the human body - but untangling this complicated molecular mixture into a quantitative measurement of its constituent components is currently an unsolved problem. This project aims to develop a new instrument that leverages the Nobel Prize winning technology of the optical frequency comb to enable analysis of such mixtures. It is expected that by combining a frequency comb source, with an innovative detector and a highly sensitive sampling system, a real-time spectral signature of each sample will be generated. Computational techniques developed by the radio astronomy community will then be used to extract concentrations of individual molecular components at the parts-per-billion level.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346888
Funder
Australian Research Council
Funding Amount
$288,000.00
Summary
3-D Optical Surface Profiler. Establishing a state-of-the-science 3-D optical surface profiler will enable macroscopic, microscopic and nanoscopic profiling of surfaces over a very broad range of research programs including, laser cleaning and surface modification, laser precision microfabrication, surface, materials and device characterisation and optical physics applications. The importance and significance of these projects has already been established by the projects having competitive fundi ....3-D Optical Surface Profiler. Establishing a state-of-the-science 3-D optical surface profiler will enable macroscopic, microscopic and nanoscopic profiling of surfaces over a very broad range of research programs including, laser cleaning and surface modification, laser precision microfabrication, surface, materials and device characterisation and optical physics applications. The importance and significance of these projects has already been established by the projects having competitive funding. The instrument will undoubtedly support many additional research programs. It is similar to an Atomic-Force-Microscope or stylus profilometer but has significant additional capabilites. These include profiling much larger areas at sub-nanometre resolution and the non-contact nature of the technique. These features will enable surface characterisation that can not be achieved by other means.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989390
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Versatile Scanning X-ray Microscopy Facility at the Australian Synchrotron. The challenges of the modern world means that the Australian community must continue to have access to state of the art research tools. An important component of international synchrotron sources is the very high resolution x-ray microscope. These microscopes are used to image samples of biological, material or environmental significance with extraordinary precision. This project will establish such a microscope at the A ....Versatile Scanning X-ray Microscopy Facility at the Australian Synchrotron. The challenges of the modern world means that the Australian community must continue to have access to state of the art research tools. An important component of international synchrotron sources is the very high resolution x-ray microscope. These microscopes are used to image samples of biological, material or environmental significance with extraordinary precision. This project will establish such a microscope at the Australian Synchrotron in Clayton, and nucleates an extensive nationwide collaboration that is devoted to the development of this and related techniques and their application to problems of national scientific, environmental and technological importance.Read moreRead less
Nanodiamond in glass: a new approach to nanosensing. This work will develop optical materials enriched with diamond nanoparticles. This will enable the magnetic field sensitivity of diamond nanoparticles to be combined with the capacity of micro/nanostructured optical fibres to enhance the interaction of light with matter. The outcome will be tools for probing biological processes on the nanoscale.
Disruptive approaches to biological sensing. Optical fibre-based biosensors have the potential to transform our ability to monitor our environment, protect our nation's assets and safeguard our citizens, and to offer improved clinical diagnostics and food quality control by creating tools that can detect biomolecules in real-time within complex samples. To fulfil this mission, we propose to develop new fibre-based sensing architectures for sensing biomolecules that have the potential to be sensi ....Disruptive approaches to biological sensing. Optical fibre-based biosensors have the potential to transform our ability to monitor our environment, protect our nation's assets and safeguard our citizens, and to offer improved clinical diagnostics and food quality control by creating tools that can detect biomolecules in real-time within complex samples. To fulfil this mission, we propose to develop new fibre-based sensing architectures for sensing biomolecules that have the potential to be sensitive, selective, fast and compact.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100104
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Capability for the fabrication and characterisation of mid-infrared photonic materials. The proposed facility will support the development of new glass materials suitable for transmitting and generating light in the mid-infrared spectral region. This research will allow Australia to lead the world in developing new technologies that make use of the mid-infrared region of the electromagnetic spectrum. Particular applications that will flow from this research include the development of new optical ....Capability for the fabrication and characterisation of mid-infrared photonic materials. The proposed facility will support the development of new glass materials suitable for transmitting and generating light in the mid-infrared spectral region. This research will allow Australia to lead the world in developing new technologies that make use of the mid-infrared region of the electromagnetic spectrum. Particular applications that will flow from this research include the development of new optical fibre-based laser sources for defence and surgery, new technologies for detecting and treating cancer, and other in-vivo detection methods.Read moreRead less
Ultrafast, near infrared laser sources using fibre-based optical parametric oscillators. This project will use microstructured optical fibres and nonlinear optics to create compact and cheap laser sources in the near infrared spectrum to replace the bulky and expensive devices in many spectroscopic and biophotonic applications today. The work will further enhance Australia's standing in the field of nonlinear optics and optical fibres.
Transformational diagnostics. Australia has established world-leading capabilities in optical fibres and surface science that, when brought together, have the potential to transform applications that require non-invasive, real-time and/or portable biological detection tools. We propose a novel and ambitious suite of projects that bring together these capabilities with experts in reproductive health, forensics and explosives to solve pressing problems in each of these areas that have the promise ....Transformational diagnostics. Australia has established world-leading capabilities in optical fibres and surface science that, when brought together, have the potential to transform applications that require non-invasive, real-time and/or portable biological detection tools. We propose a novel and ambitious suite of projects that bring together these capabilities with experts in reproductive health, forensics and explosives to solve pressing problems in each of these areas that have the promise to develop into new industries for Australia as well as to explore rich science opportunities at the boundaries of these disciplines.Read moreRead less