Engineering phase and the flow of light in nanophotonics. Optical devices on the scale of only billionths of a meter impel photonic revolution in information technologies. The extraordinary sensitivity and tunability of light confined on nano-scale is caused by the yet unexplored and poorly understood world of tiniest flows of energy, the optical vortices. In this project we will learn to manipulate optical vortices with the light itself, introducing original concepts for intelligent engineering ....Engineering phase and the flow of light in nanophotonics. Optical devices on the scale of only billionths of a meter impel photonic revolution in information technologies. The extraordinary sensitivity and tunability of light confined on nano-scale is caused by the yet unexplored and poorly understood world of tiniest flows of energy, the optical vortices. In this project we will learn to manipulate optical vortices with the light itself, introducing original concepts for intelligent engineering of nano-elements of a photonic chip. This project will deliver underpinning knowledge, foremost practical expertise, and the prominent training of young researchers to secure Australia's international leadership in the rapidly growing and competitive field of nanophotonics.Read moreRead less
Slow light in nanostructured materials. This project will introduce and demonstrate novel concepts for dynamically controlling the speed of light and manipulating optical pulses in specially designed nanoscale structures, making an essential step towards the creation of all-optical devices performing fast switching and processing of optical signals. These developments underpin the next generation of high-performance networks, promising to revolutionize global communications. This project will ke ....Slow light in nanostructured materials. This project will introduce and demonstrate novel concepts for dynamically controlling the speed of light and manipulating optical pulses in specially designed nanoscale structures, making an essential step towards the creation of all-optical devices performing fast switching and processing of optical signals. These developments underpin the next generation of high-performance networks, promising to revolutionize global communications. This project will keep Australia at the forefront of international research and provide training of students on breakthrough applications of photonics and nanotechnology, contributing to the uptake of frontier technologies by Australian industries for successful operation in a competitive global environment.Read moreRead less
Singular photonics: twisted light and optical vortices.
This project will help to establish and support a world-leading research team in Australia in the field of singular photonics and the physics of twisted light; it will help to return the leading positions of the Australian physics in the field of singular optics, and it will initiate a design of a novel generation of photonic devices operating with vortex beams. The project will promote this field in order to enhance its rapid development ....Singular photonics: twisted light and optical vortices.
This project will help to establish and support a world-leading research team in Australia in the field of singular photonics and the physics of twisted light; it will help to return the leading positions of the Australian physics in the field of singular optics, and it will initiate a design of a novel generation of photonic devices operating with vortex beams. The project will promote this field in order to enhance its rapid development and facilitate the emergence of novel technologies in Australia; it will be combined with an extensive collaboration with top overseas groups attracting strong interest from industry.Read moreRead less
Increasing the science output of future gravitational-wave detectors by implementation of advanced output-optics configurations. This project aims to develop an instrument, a variable reflectivity mirror, which when installed on the next generation of gravitational wave detectors will expand their search capability. Successful development of this mirror will see Australia become only the third country outside of the USA involved in the Advanced LIGO Project procurement and play a major role in t ....Increasing the science output of future gravitational-wave detectors by implementation of advanced output-optics configurations. This project aims to develop an instrument, a variable reflectivity mirror, which when installed on the next generation of gravitational wave detectors will expand their search capability. Successful development of this mirror will see Australia become only the third country outside of the USA involved in the Advanced LIGO Project procurement and play a major role in the first direct detection of gravitational waves, predicted to exist by Einstein ninety years ago. Success in such an area of fundamental research will generate international prestige for Australia and pride in our ability to achieve at the highest level of research.Read moreRead less
Integrated Photonics for Secure Communication and Related Applications in Financial Transaction Data Analysis. The project includes excellent basic science, semiconductor device fabrication and applied mathematics with explicitly identified consequences for innovation. There is strong potential for national economic benefits through the manufacture of new integrated photonic devices, the application of these devices in secure communication systems, the research of advanced non-linear analysis pr ....Integrated Photonics for Secure Communication and Related Applications in Financial Transaction Data Analysis. The project includes excellent basic science, semiconductor device fabrication and applied mathematics with explicitly identified consequences for innovation. There is strong potential for national economic benefits through the manufacture of new integrated photonic devices, the application of these devices in secure communication systems, the research of advanced non-linear analysis protocols, and the implementation of these in financial transaction analysis. Professional development and research education of postgraduate students and early career researchers will be carried out in a multi-disciplinary research environment with ongoing uptake of the research in industry and commercial sectors.Read moreRead less
Slow-light photonics. This project will introduce and demonstrate novel concepts for the manipulation of optical signals in ultra-compact photonics devices, making an essential step towards fast all-optical switching and processing of data streams. These developments underpin the next generation of high-performance networks, promising to revolutionize global communications. This project will keep Australia at the forefront of international research and provide training of students on breakthroug ....Slow-light photonics. This project will introduce and demonstrate novel concepts for the manipulation of optical signals in ultra-compact photonics devices, making an essential step towards fast all-optical switching and processing of data streams. These developments underpin the next generation of high-performance networks, promising to revolutionize global communications. This project will keep Australia at the forefront of international research and provide training of students on breakthrough applications of photonics and nanotechnology, contributing to the uptake of frontier technologies by Australian industries for successful operation in a competitive global environment.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL130100044
Funder
Australian Research Council
Funding Amount
$2,965,000.00
Summary
Controlling light to understand and drive nanoscale processes. This project aims to develop a suite of light-based sensing technologies capable of quantifying the dynamic environment within a living cell. These technologies will extend our capacity to harness light-matter interactions at the nanoscale, providing new insights in fields ranging from plant biology to medicine.
Rogue waves in oceans and optical fibres. Rogue waves can sink large ships in the ocean. They appear more commonly than previously thought. Optical rogue waves, the laboratory counterparts of extreme ocean waves, will allow the project to study the main features of the phenomenon, provide the theoretical explanation for their existence and potentially help to eliminate these catastrophic events.
Optically induced spin polarisation: the role of electron-vibration interactions. A defect in diamond has applications as a microscopic probe of magnetic fields, as a fluorescence probe of biological systems and for quantum information processing. These capabilities are to be enhanced by a thorough investigation of the intrinsic properties of the defect centre.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100024
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
Optical profiler with dynamic micro electro-mechanical systems capability. This facility will allow Australian researchers to access the world's best capability in dynamic, time resolved, optical three-dimensional profiling of surfaces and devices. It will advance a raft of science research and industry applications characterising natural and artificial materials and underpinning next generation optical, photonic and microelectronic devices.