Nonlinear near-field nanophotonics. This project aims to develop nanostructures which employ both high intrinsic nonlinearities and high indices of refraction to create nanophotonic devices. Silicon photonics promises a technological leap forward through efficient photon-photon interactions within lossless dielectric nanoparticles. Light-controlling-light devices open new ways to control light-matter interaction at the nanoscale, which form the basis for many applications from all-optical inform ....Nonlinear near-field nanophotonics. This project aims to develop nanostructures which employ both high intrinsic nonlinearities and high indices of refraction to create nanophotonic devices. Silicon photonics promises a technological leap forward through efficient photon-photon interactions within lossless dielectric nanoparticles. Light-controlling-light devices open new ways to control light-matter interaction at the nanoscale, which form the basis for many applications from all-optical information processing to biomedical sensing. The expected outcomes will provide Australia with advanced technologies of integrated optical circuits with applications in optical communication networks, bioimaging, solar cells and quantum information technologies.Read moreRead less
ARC Centre of Excellence for Ultrahigh Bandwidth Devices for Optical Systems. The Centre will take the next big step in optical systems by transforming photonic integrated circuits into a technology that will have a profound effect on economies and lifestyles around the world. This will enable the Internet to transfer vast amounts of data with significantly improved energy efficiency; it will lead to secure transmission using quantum photonics-based devices, and to the detection of mid-infrared ....ARC Centre of Excellence for Ultrahigh Bandwidth Devices for Optical Systems. The Centre will take the next big step in optical systems by transforming photonic integrated circuits into a technology that will have a profound effect on economies and lifestyles around the world. This will enable the Internet to transfer vast amounts of data with significantly improved energy efficiency; it will lead to secure transmission using quantum photonics-based devices, and to the detection of mid-infrared signatures of light from distant stars and complex molecules of environmental or biochemical importance. We will achieve this by developing new materials with optical properties to control light and engineering them into miniature photonic processors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100002
Funder
Australian Research Council
Funding Amount
$1,025,000.00
Summary
Renewing Intersect's share of the National Computational Infrastructure's peak facility. Renewing Intersect's share of the National Computational Infrastructure's peak facility: The rapid and continuing growth of supercomputing capabilities presents major new opportunities for scientific and engineering research. This project aims to allow world-leading computational researchers across the Intersect consortium of 11 universities to take advantage of these opportunities by renewing their partner ....Renewing Intersect's share of the National Computational Infrastructure's peak facility. Renewing Intersect's share of the National Computational Infrastructure's peak facility: The rapid and continuing growth of supercomputing capabilities presents major new opportunities for scientific and engineering research. This project aims to allow world-leading computational researchers across the Intersect consortium of 11 universities to take advantage of these opportunities by renewing their partner share access to the National Computational Infrastructure facilities, notably a new petaflop-capable supercomputer and associated expert support. This access will enable the consortium's researchers to tackle grand challenge research problems in a diverse range of fields of national priority including frontier technologies, the environment, and promoting good health.Read moreRead less