Polymer optical fibres with controlled molecular orientation for photonic applications. The objective of the proposed research is to boost the advantage of Australian scientists and engineers working in the field of photonics by investigating new physical principles and new ways of fabricating specialty plastic optical fibres. Such fibres can be used in optical devices, to improve transmission and processing of signals in data communications, for improving efficient operation of power industry, ....Polymer optical fibres with controlled molecular orientation for photonic applications. The objective of the proposed research is to boost the advantage of Australian scientists and engineers working in the field of photonics by investigating new physical principles and new ways of fabricating specialty plastic optical fibres. Such fibres can be used in optical devices, to improve transmission and processing of signals in data communications, for improving efficient operation of power industry, in biophotonics.
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Photonic routing with liquid crystals. Liquid crystals became a household item but their unequaled nonlocal optical properties are much less known and studied, although the breathtaking prospects of their future applications in photonics inspire many experts around the world. We will bring to Australia the state of the art research approach, theoretical and experimental, aiming to uncover and realize the potential of long range interaction between laser light and nonlocal liquid crystals for fut ....Photonic routing with liquid crystals. Liquid crystals became a household item but their unequaled nonlocal optical properties are much less known and studied, although the breathtaking prospects of their future applications in photonics inspire many experts around the world. We will bring to Australia the state of the art research approach, theoretical and experimental, aiming to uncover and realize the potential of long range interaction between laser light and nonlocal liquid crystals for futuristic all-optical devices. This project will promote and enhance the rapid development of photonics in Australia, as well as deliver foremost practical expertise and outstanding training of young researchers.Read moreRead less
Novel Silicon-Based Photonic Devices. Silicon's pre-eminence in high-speed digital electronics does not extend to optoelectronics where the demand is for devices that can generate, guide, detect and process light. However, the properties of silicon are dramatically altered when it is reduced to nanometre dimensions. Advances in the understanding of such effects and in the fabrication and application of nanoscale silicon have provided the prospect of new and innovative Si-based photonic devices, ....Novel Silicon-Based Photonic Devices. Silicon's pre-eminence in high-speed digital electronics does not extend to optoelectronics where the demand is for devices that can generate, guide, detect and process light. However, the properties of silicon are dramatically altered when it is reduced to nanometre dimensions. Advances in the understanding of such effects and in the fabrication and application of nanoscale silicon have provided the prospect of new and innovative Si-based photonic devices, and of fully integrated electronic and photonic functionality. This project aims to extend the understanding of nanoscale silicon and to develop and prototype novel Si-based photonic devices based on this material.Read moreRead less
Special Research Initiatives - Grant ID: SR0354519
Funder
Australian Research Council
Funding Amount
$30,000.00
Summary
Network for Optical and Quantum Science and Technology. This Network links world-class researchers involved with the investigation and application of light and atoms, particularly at the quantum level. Three ARC Centres of Excellence* will be linked and networked with other successful research groups in optics, including atom optics and Bose-Einstein condensation (BEC), quantum computing, optical switching, imaging, and interferometry. The Network-facilitated interactions will foster multidisci ....Network for Optical and Quantum Science and Technology. This Network links world-class researchers involved with the investigation and application of light and atoms, particularly at the quantum level. Three ARC Centres of Excellence* will be linked and networked with other successful research groups in optics, including atom optics and Bose-Einstein condensation (BEC), quantum computing, optical switching, imaging, and interferometry. The Network-facilitated interactions will foster multidisciplinary approaches linking the majority of the Australian optics community, and harnessing Australia's existing research excellence in optics to address major questions in optical and quantum science and technology.
* Quantum-Atom Optics (ACQAO), Quantum Computing Technology (CQCT), Ultrahigh Bandwidth Devices and Optical Systems (CUDOS).
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Unified digital networking for wireless and optical access. The provision of broadband services is a high priority for the Australian government as evidenced by the various initiatives around Australia. The merging of backbone infrastructures for access environment will overcome unnecessary cost of maintaining and upgrading two separate networks for wired and wireless applications. The merged infrastructure will potentially provide inexpensive and cost-effective solutions for truly broadband ser ....Unified digital networking for wireless and optical access. The provision of broadband services is a high priority for the Australian government as evidenced by the various initiatives around Australia. The merging of backbone infrastructures for access environment will overcome unnecessary cost of maintaining and upgrading two separate networks for wired and wireless applications. The merged infrastructure will potentially provide inexpensive and cost-effective solutions for truly broadband services with a choice of wired or wireless connectivity to customers and will remove the rural-urban broadband divide that has been challenging Australia. The outcomes of this project can lead to new business ventures and will further strengthen the telecommunication industry.Read moreRead less
Development of a novel photonic reticulation system for cost efficient delivery of high bandwidth communication services to regional communities. The R&D and commercialisation of the DWDM-lite will have a significant impact on the efficiency of Australia's telecommunications industry with consequent flow-on effects to the productivity and competitiveness of Australian telecommunications industry. The availability of broadband telecommunications services to regional communities at service and ser ....Development of a novel photonic reticulation system for cost efficient delivery of high bandwidth communication services to regional communities. The R&D and commercialisation of the DWDM-lite will have a significant impact on the efficiency of Australia's telecommunications industry with consequent flow-on effects to the productivity and competitiveness of Australian telecommunications industry. The availability of broadband telecommunications services to regional communities at service and services levels to those of metropolitan customers is a recognised national priority. It lies at the core of the Australian Government's recently announced Connect Australia plan directing at regional community benefits in improved availability and affordability of broadband telecommunications services. The product will enhance Australian participation in the global equipment supply industryRead moreRead less
High-speed bidirectional optical interconnects for board-to-board communications. The project will contribute directly to Australia's participation in various ICT industries through the development of innovative solutions and will increase the knowledge and skills base in silicon-photonics. The development of the proposed board-to-board high-speed optical interconnect prototypes will result in R&D outcomes well-matched to the needs and interests of Australian companies; this project will assist ....High-speed bidirectional optical interconnects for board-to-board communications. The project will contribute directly to Australia's participation in various ICT industries through the development of innovative solutions and will increase the knowledge and skills base in silicon-photonics. The development of the proposed board-to-board high-speed optical interconnect prototypes will result in R&D outcomes well-matched to the needs and interests of Australian companies; this project will assist Australia to capitalise on new technology and to become a significant player in the next ICT boom. This project will put Australia at the cutting edge of high-speed interconnect technology and will generate income through licensing the technology and the establishment of spin-off opportunities in both Australia and off-shore.Read moreRead less
Photonic Antenna: Nested multi-band patch antenna and arrayed photonic interconnect. This project aims to investigate the design of a broadband ?photonic antenna? for airborne radar warning and electronic countermeasure systems. The project will investigate the development of a suite of printed antennas that cover bands in the range from 2-40 GHz realised on a single substrate. Nesting these antennas to reduce system size, and integration of this module with a custom optical modulator array and ....Photonic Antenna: Nested multi-band patch antenna and arrayed photonic interconnect. This project aims to investigate the design of a broadband ?photonic antenna? for airborne radar warning and electronic countermeasure systems. The project will investigate the development of a suite of printed antennas that cover bands in the range from 2-40 GHz realised on a single substrate. Nesting these antennas to reduce system size, and integration of this module with a custom optical modulator array and RF signal combiner will be investigated. The resulting broadband antenna suite with photonic interconnect will require minimal fabrication and packaging resources, and will thus be an economically viable photonic solution for practical defence systems.Read moreRead less
MEMS Based Chip-to-Chip Optical Interconnect for Future Generation of Systems In a Package. The project will bring Australian technical known-how into the forefront of the information and communication technology revolution. The technology developed in this project will enable computers to operate at very high speeds. More information can be communicated than ever before. This has significant impact on Australian society where speed of information is increasingly important. The technical knowl ....MEMS Based Chip-to-Chip Optical Interconnect for Future Generation of Systems In a Package. The project will bring Australian technical known-how into the forefront of the information and communication technology revolution. The technology developed in this project will enable computers to operate at very high speeds. More information can be communicated than ever before. This has significant impact on Australian society where speed of information is increasingly important. The technical knowledge of how to make computers operate faster has great commercial value and would be very much sought after. Hence, its impact on the national economy. Read moreRead less
Fabrication and design of spun and chiral microstructured fibres. Novel optical fibre devices and especially sensors have established and growing markets in sectors as diverse as medical, aerospace & defence, energy, scientific and process control. This project will build on our existing success in developing microstructured polymer optical fibres (mPOF), and create major new opportunities, both in fundamental science and in applications that could be commercialised. Australia is currently leadi ....Fabrication and design of spun and chiral microstructured fibres. Novel optical fibre devices and especially sensors have established and growing markets in sectors as diverse as medical, aerospace & defence, energy, scientific and process control. This project will build on our existing success in developing microstructured polymer optical fibres (mPOF), and create major new opportunities, both in fundamental science and in applications that could be commercialised. Australia is currently leading the world in mPOF. This project builds on these past successes but moves beyond telecommunications into biophotonics with potential applications in magnetic field sensors, biological sensors, optical tweezers, polarisation emulators and new types of linear and nonlinear modes. Read moreRead less