Australian Laureate Fellowships - Grant ID: FL100100099
Funder
Australian Research Council
Funding Amount
$2,340,409.00
Summary
An accelerating journey to the new era of Petabyte optical memory systems. Optical data storage is one of the core aspects of optical information technology which has been globally recognised as one of the next generation high-technology areas that can boost our economy for sustainable development. However, the emergence of blue ray or high-definition DVDs has identified that current optical data storage technology will soon approach the limit of the data storage capacity of approximately 100 Gi ....An accelerating journey to the new era of Petabyte optical memory systems. Optical data storage is one of the core aspects of optical information technology which has been globally recognised as one of the next generation high-technology areas that can boost our economy for sustainable development. However, the emergence of blue ray or high-definition DVDs has identified that current optical data storage technology will soon approach the limit of the data storage capacity of approximately 100 Gigabytes. The ground-breaking Petabyte data storage technology we will research will result in the storage capacity of 10,000 DVDs in one disc and thus underpin every sector of our modern life such as remote education, portable banking, global e-security and telemedicine as well as lead to enormous economic benefits in Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100884
Funder
Australian Research Council
Funding Amount
$366,000.00
Summary
Integration of Nanoantenna-Enhanced Sensors and Light Sources. Metal nanoparticles are ideal candidates to enhance and modify the radiation of nanoscale light sources. However, research in nano light sources is only just beginning, thus their full potential has not yet been unlocked. This project aims to develop novel nano light sources to control the polarisation-state of emission and to enhance their efficiency and brightness. The project aims to deliver a new technology platform for on-chip i ....Integration of Nanoantenna-Enhanced Sensors and Light Sources. Metal nanoparticles are ideal candidates to enhance and modify the radiation of nanoscale light sources. However, research in nano light sources is only just beginning, thus their full potential has not yet been unlocked. This project aims to develop novel nano light sources to control the polarisation-state of emission and to enhance their efficiency and brightness. The project aims to deliver a new technology platform for on-chip integration of these light sources which is needed to demonstrate real-world applications. This platform will also be used to develop a new class of compact waveguide sensors that are highly sensitive and flexible with a broad range of applications.Read moreRead less
Novel 2-photon atom manipulation for ultra-nanoscale processing of diamond. There is intense interest in exploiting diamond's remarkable properties in many fields of science and technology, but fabricating and processing devices remains a major challenge. This project will build on previous work, using a recently discovered novel laser-induced surface phenomenon that enables, for the first time for any material, the exciting prospect of using light to manipulate surface atoms with atomic precis ....Novel 2-photon atom manipulation for ultra-nanoscale processing of diamond. There is intense interest in exploiting diamond's remarkable properties in many fields of science and technology, but fabricating and processing devices remains a major challenge. This project will build on previous work, using a recently discovered novel laser-induced surface phenomenon that enables, for the first time for any material, the exciting prospect of using light to manipulate surface atoms with atomic precision. This project aims to elucidate the mechanisms underpinning the optical interaction to reveal its full potential and use it to address key problems in diamond nano-device fabrication that lie beyond the reach of current techniques. It is expected that the outcomes will directly enhance Australia's current strengths in diamond-based quantum and photonic technologies.Read moreRead less
Efficient, directional and spin-controlled nanoscale light sources. This project aims to develop a new class of functional light sources by harnessing the nanoscale interactions between emitters and metallic or dielectric nanoparticles. Understanding of these interactions would lead to efficient energy extraction from emitters to far-field radiation; in addition, new functionalities including highly directional emission, circularly polarised emission, and super-radiance would be realised. The ou ....Efficient, directional and spin-controlled nanoscale light sources. This project aims to develop a new class of functional light sources by harnessing the nanoscale interactions between emitters and metallic or dielectric nanoparticles. Understanding of these interactions would lead to efficient energy extraction from emitters to far-field radiation; in addition, new functionalities including highly directional emission, circularly polarised emission, and super-radiance would be realised. The outcomes of this project are expected to enable unprecedented control of light emission beyond current capabilities and will revolutionise lighting and display technologies. Furthermore the project aims to open new opportunities for the development of bright bio-medical fluorescent markers as well as deterministic sources of quantum light.Read moreRead less