Towards an all-optical Internet. The Federation Fellowship will build on the applicant's established and highly successful research program into key technologies for the all-optical Internet. Unlike the current Internet, which relies heavily on electronics for switching and routing, the all-optical Internet will use optics for these functions. The all-optical Internet will enable a vast increase in network capacity and will revolutionize telecommunications. The research program wil produce impor ....Towards an all-optical Internet. The Federation Fellowship will build on the applicant's established and highly successful research program into key technologies for the all-optical Internet. Unlike the current Internet, which relies heavily on electronics for switching and routing, the all-optical Internet will use optics for these functions. The all-optical Internet will enable a vast increase in network capacity and will revolutionize telecommunications. The research program wil produce importatnt innovations and will advance the Australian knowledge base in optical comunications and photonics. The research will assist Asutralia to capitalize on this new technology and to become a significant player in the next phase of the information revolution.Read moreRead less
Ultrafast photonic integrated circuits: Unlocking the bandwidth. Australia's prosperity increasingly depends on its communications infrastructure and supporting technologies. We will develop optical technologies to deliver vast increases in bandwidth at low cost. This will be achieved by building a photonic integrated circuit from a breakthrough material that offers ultrafast all-optical switching capability. This infrastructure will be critical to almost all areas of Australian society: commerc ....Ultrafast photonic integrated circuits: Unlocking the bandwidth. Australia's prosperity increasingly depends on its communications infrastructure and supporting technologies. We will develop optical technologies to deliver vast increases in bandwidth at low cost. This will be achieved by building a photonic integrated circuit from a breakthrough material that offers ultrafast all-optical switching capability. This infrastructure will be critical to almost all areas of Australian society: commerce, personal communications, e-health and entertainment, and will improve the quality of life and the economic competitiveness of urban, rural and regional Australia. The outcomes will include the creation of spin-off companies to commercialise the optical technologies.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