Tailoring ultrafast pulses for Tb/s transmission with advanced modulation formats. Ultrahigh bandwidth communications technologies will play an increasingly important role in the social and economic development of Australia. The potential benefit is emphasised by the recent decision to build a broadband network valued at $8 B that will link the vast majority of Australian homes and businesses by high speed optical fibre. In this project we will investigate innovative approaches for optical trans ....Tailoring ultrafast pulses for Tb/s transmission with advanced modulation formats. Ultrahigh bandwidth communications technologies will play an increasingly important role in the social and economic development of Australia. The potential benefit is emphasised by the recent decision to build a broadband network valued at $8 B that will link the vast majority of Australian homes and businesses by high speed optical fibre. In this project we will investigate innovative approaches for optical transmission of data at the ultrahigh bit rates required by these next generation networks. These approaches will be based on technology developed in Australia by the Partner Organisation Optium Corporation, leading to further growth opportunities within the Australian manufacturing operation of this company.Read moreRead less
Slow light in nonlinear photonic crystals: less haste, more speed. The development of communications is vital to Australia's future. Our project will enable both massive improvements of the performance of the communication technologies and significant reductions in the cost and size of the associated infrastructures. The resulting benefits will contribute to developing the economy and lifestyle of rural and regional Australia. The expansion of a faster network throughout the country will eventua ....Slow light in nonlinear photonic crystals: less haste, more speed. The development of communications is vital to Australia's future. Our project will enable both massive improvements of the performance of the communication technologies and significant reductions in the cost and size of the associated infrastructures. The resulting benefits will contribute to developing the economy and lifestyle of rural and regional Australia. The expansion of a faster network throughout the country will eventually enable advanced techniques and services such as remote surgery, remote engineering and distance education. We will provide advanced training for three students who will gain valuable skills in this area that will be sought after by the Australian information and communication technology industry. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668381
Funder
Australian Research Council
Funding Amount
$750,000.00
Summary
Foundational National Nanotechnology Infrastructure. Breakthough nanotechnologies based on quantum mechanics promise useful devices for absolutely secure transmission of information encoded in quantum states, ultra-rapid searching through genome databases for unique gene sequences, faster electronic and photonic devices, robust devices made from diamond and better processing of biomedical materials for diagnosis of illness. Fabrication and characterization of these devices provides training for ....Foundational National Nanotechnology Infrastructure. Breakthough nanotechnologies based on quantum mechanics promise useful devices for absolutely secure transmission of information encoded in quantum states, ultra-rapid searching through genome databases for unique gene sequences, faster electronic and photonic devices, robust devices made from diamond and better processing of biomedical materials for diagnosis of illness. Fabrication and characterization of these devices provides training for research students in state-of-the-art techniques with many uses. Deeper understanding of these quantum technologies will lead to better models for some of the most puzzling aspects of quantum mechanical systems that are the foundation of the physical processes of
our universe.Read moreRead less
Low energy all-optical logic gates with improved cascadability and fan-out for future optical communications and signal processing systems. All-optical logic processing is the key to overcoming electronic bottlenecks in high-speed communication networks as single-channel speeds exceed electronic capabilities. This research will build off and extend Australia's world leading specialty fibre and fibre device capabilities and place Australia at the forefront in the international all-optical digital ....Low energy all-optical logic gates with improved cascadability and fan-out for future optical communications and signal processing systems. All-optical logic processing is the key to overcoming electronic bottlenecks in high-speed communication networks as single-channel speeds exceed electronic capabilities. This research will build off and extend Australia's world leading specialty fibre and fibre device capabilities and place Australia at the forefront in the international all-optical digital information-processing race. High quality research publications will enhance Australia's strong research reputation in photonics and advanced materials and promote international collaboration. New optical processing capabilities will benefit other application areas such as sensing and security.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453541
Funder
Australian Research Council
Funding Amount
$298,052.00
Summary
Raman Photonic Device Facility. We are seeking funding for an Raman Photonic Device Facility. This represents a new opportunity for Australia to become a world leader in the rapidly advancing area of Raman interactions in photonic devices covering both real-world application and fundamental physical research. The equipment request comprises ultrafast and high-power laser systems, forming a unique integrated facility within Australia. This facility will link Australia's premier research organizat ....Raman Photonic Device Facility. We are seeking funding for an Raman Photonic Device Facility. This represents a new opportunity for Australia to become a world leader in the rapidly advancing area of Raman interactions in photonic devices covering both real-world application and fundamental physical research. The equipment request comprises ultrafast and high-power laser systems, forming a unique integrated facility within Australia. This facility will link Australia's premier research organization in the area of photonics, including the University of Sydney, Macquarie University and The Australian National University.Read moreRead less
Nano-Engineered Glass for Next Generation Optical Fibre Devices and Systems. Optical fibre and fibre devices are a major technology platform of the IT revolution. The global photonics market is valued at $220bn, with Australian industry contributing ~$500m to the Australian economy. $158m is from communications photonics companies, largely SMEs, and comprises roughly 1% of the global telecoms photonic market. For Australia to be a significant player in this very competitive environment, the indu ....Nano-Engineered Glass for Next Generation Optical Fibre Devices and Systems. Optical fibre and fibre devices are a major technology platform of the IT revolution. The global photonics market is valued at $220bn, with Australian industry contributing ~$500m to the Australian economy. $158m is from communications photonics companies, largely SMEs, and comprises roughly 1% of the global telecoms photonic market. For Australia to be a significant player in this very competitive environment, the industry needs a continuing flow of research innovations. The breakthrough science in this research project will extend Australia's world leading speciality fibre and fibre device capabilities and the innovation will succour the growing Australian industry, ensuring a place on the next wave of deployment of photonic technology.Read moreRead less
Ultra-sensitivity through resonances in photonic bandgap fibres. The project will develop innovative biochemical sensors with extreme sensitivity using recently discovered physical processes in novel holey optical fibres. These sensors will be able to detect biological molecules, toxins or dangerous chemicals in minute concentrations, in very small sample sizes. The sensors can be mass-produced cheaply with current fabrication facilities within Australia, enabling their widespread use for water ....Ultra-sensitivity through resonances in photonic bandgap fibres. The project will develop innovative biochemical sensors with extreme sensitivity using recently discovered physical processes in novel holey optical fibres. These sensors will be able to detect biological molecules, toxins or dangerous chemicals in minute concentrations, in very small sample sizes. The sensors can be mass-produced cheaply with current fabrication facilities within Australia, enabling their widespread use for water quality monitoring, environmental monitoring, threat detection, and rapid and reliable diagnosis in medicine.Read moreRead less
Silicon All-Optical Nanophotonic Devices for 160Gb/s Systems. With the exponential growth in global bandwidth demand, the speed, cost, size, and energy requirements of telecommunications equipment are reaching a crisis point. This project will pioneer ultra-high speed silicon integrated all-optical signal processing devices that will provide faster, cheaper and more energy efficient solutions than current electronic based approaches. In doing so, this will also directly benefit the Australian ph ....Silicon All-Optical Nanophotonic Devices for 160Gb/s Systems. With the exponential growth in global bandwidth demand, the speed, cost, size, and energy requirements of telecommunications equipment are reaching a crisis point. This project will pioneer ultra-high speed silicon integrated all-optical signal processing devices that will provide faster, cheaper and more energy efficient solutions than current electronic based approaches. In doing so, this will also directly benefit the Australian photonics, telecommunications, and defence industries. It will use novel structures such as nanowire waveguides and micro-ring resonators to demonstrate all-optical signal regeneration, wavelength conversion, demultiplexing and other functions at speeds up to 160Gb/s.Read moreRead less
Highly nonlinear all-optical switches using chalcogenide photonic crystal. Business productivity and economic prosperity are increasingly correlated with the speed of a country's Internet connections and computer infrastructure. Australia will benefit from dramatic improvements to communications technology arising from this research, through access to improved services and through the creation of enterprises formed to commercialise our novel technology. The benefits from the eventual development ....Highly nonlinear all-optical switches using chalcogenide photonic crystal. Business productivity and economic prosperity are increasingly correlated with the speed of a country's Internet connections and computer infrastructure. Australia will benefit from dramatic improvements to communications technology arising from this research, through access to improved services and through the creation of enterprises formed to commercialise our novel technology. The benefits from the eventual development of ultrahigh speed networks include better rural and regional connectivity, improved business productivity and the emergence of new high-bandwidth services, such as telemedicine and flexible learning.Read moreRead less
Novel optical dispersion compensation techniques in an optical transmission system. The outcomes of the project will lead to crucial innovations in reconfigurable ultrahigh bit rate optical networks whose deployment in Australia will lead to widespread availability of broadband data communications services to individuals and businesses. This crucial infrastructure will create a platform for services and products from the Australian ICT sector in areas including e-education, e-health and telecomm ....Novel optical dispersion compensation techniques in an optical transmission system. The outcomes of the project will lead to crucial innovations in reconfigurable ultrahigh bit rate optical networks whose deployment in Australia will lead to widespread availability of broadband data communications services to individuals and businesses. This crucial infrastructure will create a platform for services and products from the Australian ICT sector in areas including e-education, e-health and telecommuting.
The outcomes of the project will be commercialized, leading to significant exports and employment opportunities for photonics scientists and engineers.Read moreRead less