Silicon Photonics and Third Generation Photovoltaics. The Fellowship would be used to launch a major new initiative addressing one of the key challenges facing microelectronics, the incorporation of optical functions into high density silicon integrated circuits, as well as accelerating development of a "third" generation of photovoltaic solar cells using similar techniques. This third generation thin-film technology would be capable of fundamentally higher energy conversion efficiency than ear ....Silicon Photonics and Third Generation Photovoltaics. The Fellowship would be used to launch a major new initiative addressing one of the key challenges facing microelectronics, the incorporation of optical functions into high density silicon integrated circuits, as well as accelerating development of a "third" generation of photovoltaic solar cells using similar techniques. This third generation thin-film technology would be capable of fundamentally higher energy conversion efficiency than earlier generations, at low cost. In both cases, the targeted outcome over the period of the Fellowship is to develop technology to the stage where it can be commercially evaluated, in a way likely to maximise Australian benefits.Read moreRead less
Optical Semiconductors for next-generation lasers, optical processors, and integrated optical chips. We are on the verge of an optical processing revolution. The silicon industry evolved from valves to transistors and finally to processors - Optical processing is the next step in the evolution of lasers from gas to solid state, and ultimately to integrated optical chips. Australia had a significant lead in semiconductors during the 1970?s, but unfortunately lost this lead due to a lack of local ....Optical Semiconductors for next-generation lasers, optical processors, and integrated optical chips. We are on the verge of an optical processing revolution. The silicon industry evolved from valves to transistors and finally to processors - Optical processing is the next step in the evolution of lasers from gas to solid state, and ultimately to integrated optical chips. Australia had a significant lead in semiconductors during the 1970?s, but unfortunately lost this lead due to a lack of local market. The emergence of biotechnology and telecommunications offer strong local markets for this new integrated optical technology. This project aims to create a world-leading Research capability in Australia to drive the evolution of integrated optoelectronics, and provide a commercial path to create a leading Australian industry.Read moreRead less
Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems ....Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems (NEMS), integrated with electronics and nano optics and cooled into the quantum regime. Quantum electromechanical systems (QEMS) enable new sensors with ultimate sensitivity limited only by the Heisenberg uncertainty principle, with applications in photonics, metrology and bio molecular imaging.Read moreRead less
Nonlinear Photonics and All-Optical Technologies. Information is playing an increasing role in the modern society. The future progress in the information data processing is associated with a new generation of compact nanoscale optical devices operating entirely with light. The research programme aims to develop innovative concepts of all-optical communication and information technologies and to carry out both theoretical and experimental studies on the photonic-crystal physics and engineering, o ....Nonlinear Photonics and All-Optical Technologies. Information is playing an increasing role in the modern society. The future progress in the information data processing is associated with a new generation of compact nanoscale optical devices operating entirely with light. The research programme aims to develop innovative concepts of all-optical communication and information technologies and to carry out both theoretical and experimental studies on the photonic-crystal physics and engineering, optical solitons, and nanoscale nonlinear switching devices in order to promote the new field of photonic crystals, to enhance its development in Australia and provide linkages between leading edge R & D and industry in an important emerging technology.Read moreRead less
All-optical technologies, nanophotonics, and metamaterials. This program will support a world-leading team in nanophotonics and metamaterials. It will introduce and demonstrate novel concepts for manipulating optical pulses in specially designed nanoscale structures, making an essential step towards the creation of all-optical devices which perform fast switching and processing of optical signals. These developments will underpin the next generation of high-performance networks promising to revo ....All-optical technologies, nanophotonics, and metamaterials. This program will support a world-leading team in nanophotonics and metamaterials. It will introduce and demonstrate novel concepts for manipulating optical pulses in specially designed nanoscale structures, making an essential step towards the creation of all-optical devices which perform fast switching and processing of optical signals. These developments will underpin the next generation of high-performance networks promising to revolutionize global communications. This research program will keep Australia at the forefront of international research and provide training for students in breakthrough applications of photonics and nanotechnology, contributing to the uptake of frontier technologies by Australian industries.Read moreRead less
Engineered optical fibre device structures for next generation telecommunication systems. The next generation of optical telecommunication networks requires novel photonic compnents that are superior to current devices, and cannot be obtained by incremental improvement. This project will identify novel device architectures and implement these in practical devices. This will ensure that Australia remains at the cutting edge of photonics research, one of the most dynamic and exciting ereas in sc ....Engineered optical fibre device structures for next generation telecommunication systems. The next generation of optical telecommunication networks requires novel photonic compnents that are superior to current devices, and cannot be obtained by incremental improvement. This project will identify novel device architectures and implement these in practical devices. This will ensure that Australia remains at the cutting edge of photonics research, one of the most dynamic and exciting ereas in science and engineering and at the basis of a multibillion dollar industry.Read moreRead less
Robust and Distributed Control of Quantum Systems. Australia has considerable strengths in quantum technology research. As these technologies advance, the issue of control and in particular feedback control becomes a critical one. This research project will strengthen Australia's position in quantum technology by developing new methodologies for designing high performance robust and distributed feedback controllers for quantum systems. The project will also add to Australia's strength in quantum ....Robust and Distributed Control of Quantum Systems. Australia has considerable strengths in quantum technology research. As these technologies advance, the issue of control and in particular feedback control becomes a critical one. This research project will strengthen Australia's position in quantum technology by developing new methodologies for designing high performance robust and distributed feedback controllers for quantum systems. The project will also add to Australia's strength in quantum technology by contributing to the research training of young researchers with expertise both in control systems engineering and quantum technology. This project will help Australia reap the maximum possible benefit from the new industries to emerge from the field of quantum technology.Read moreRead less
The first stage of vision: transduction and adaptation in retinal photoreceptors. The project aims to provide a detailed understanding of the molecular steps involved in the first stage of vision - the conversion of light into a neural signal in the rod and cone photoreceptors of the retina. The significance of this is that it will explain the initial events that enable us to see, and will help explain the deficits that occur when the process fails. The outcome will be a comprehensive understand ....The first stage of vision: transduction and adaptation in retinal photoreceptors. The project aims to provide a detailed understanding of the molecular steps involved in the first stage of vision - the conversion of light into a neural signal in the rod and cone photoreceptors of the retina. The significance of this is that it will explain the initial events that enable us to see, and will help explain the deficits that occur when the process fails. The outcome will be a comprehensive understanding of how our photoreceptors respond with extreme sensitivity, yet great rapidity, and over an enormous range of light intensities, thus endowing us with our remarkable sense of vision.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
Honeybee Vision and navigation, and applications to robotics. Anyone observing a honeybee find its way home effortlessly after collecting nectar would know that these insects are excellent navigators, despite their diminutive brains and relatively simple nervous systems. One aim of this proposal is to gain a better understanding of the mechanisms underling honeybee navigation. Another aim is to apply some of these findings to the development of novel, biologically inspired naviagtion systems for ....Honeybee Vision and navigation, and applications to robotics. Anyone observing a honeybee find its way home effortlessly after collecting nectar would know that these insects are excellent navigators, despite their diminutive brains and relatively simple nervous systems. One aim of this proposal is to gain a better understanding of the mechanisms underling honeybee navigation. Another aim is to apply some of these findings to the development of novel, biologically inspired naviagtion systems for aircraft. The findings should illuminate important principles of animal navigation. They should also advance Australia's technology in the area of unmanned aerial vehicles (UAVs), which will have important applications in national defence and security.Read moreRead less