Nanoscale nonlinear optics. Advances in nanotechnology have led to the realisation of nanoscale photonic components that enable integration within electronic chips. Now the challenge is to make these components perform computing functions themselves, thus providing ultra-high operation speeds and reducing power consumption. This project will utilize the intensity dependent interaction of light with metal-dielectric nanostructures to establish new processing functions of the photonic components. ....Nanoscale nonlinear optics. Advances in nanotechnology have led to the realisation of nanoscale photonic components that enable integration within electronic chips. Now the challenge is to make these components perform computing functions themselves, thus providing ultra-high operation speeds and reducing power consumption. This project will utilize the intensity dependent interaction of light with metal-dielectric nanostructures to establish new processing functions of the photonic components. Our research underpins integration of photonics in future generations of computers and enables novel applications in subwavelength optical imaging and sensing. This project will therefore strongly enhance the standing of Australia in the field of nanotechnology.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