Tunable nonlinear photonic devices with liquid crystals. This project will help to initiate in Australia a systematic study of nonlinear properties of liquid crystals for applications in optical components. Taking the advantage of strong and tunable nonlinear response of liquid crystals and low threshold powers, it will analyse new opportunities for controllable light manipulation in nanoscale photonic devices, suggesting realistic designs for tunable photonic circuits. The project will promote ....Tunable nonlinear photonic devices with liquid crystals. This project will help to initiate in Australia a systematic study of nonlinear properties of liquid crystals for applications in optical components. Taking the advantage of strong and tunable nonlinear response of liquid crystals and low threshold powers, it will analyse new opportunities for controllable light manipulation in nanoscale photonic devices, suggesting realistic designs for tunable photonic circuits. The project will promote this attractive field and will facilitate the emergence of novel technologies. It will also lead to important international collaborations and bring important new expertise to Australia, complementing the core research program of the ARC Centre of Excellence CUDOS.Read moreRead less
Tunable shaping and switching of polychromatic light for integrated photonics. This project will help to promote in Australia novel field of polychromatic and white-light photonics, which is currently being very actively explored at the leading research centres around the globe. It will introduce and demonstrate innovative concepts for efficient manipulation of multi-color light in integrated photonic structures, which will keep Australia at the forefront of the international research and will c ....Tunable shaping and switching of polychromatic light for integrated photonics. This project will help to promote in Australia novel field of polychromatic and white-light photonics, which is currently being very actively explored at the leading research centres around the globe. It will introduce and demonstrate innovative concepts for efficient manipulation of multi-color light in integrated photonic structures, which will keep Australia at the forefront of the international research and will contribute to the uptake of frontier technologies by Australian industries. This project will lead to international collaborations which will bring important new expertise to Australia. It will also provide training for students in breakthrough applications of photonics and nanotechnology.Read moreRead less
NONLINEAR SURFACE MODES IN PHOTONIC AND PLASMONIC METAMATERIALS. This project will underpin the development of frontier technologies of manipulating light on subwavelength scale, which has a potential of delivering revolutionary advances in nanotechnology and photonics. The project is therefore of national benefit for its advances in the innovative cutting-edge research of nano-optics. The project will initialize collaboration with world leading experts in the area, bringing important expertise ....NONLINEAR SURFACE MODES IN PHOTONIC AND PLASMONIC METAMATERIALS. This project will underpin the development of frontier technologies of manipulating light on subwavelength scale, which has a potential of delivering revolutionary advances in nanotechnology and photonics. The project is therefore of national benefit for its advances in the innovative cutting-edge research of nano-optics. The project will initialize collaboration with world leading experts in the area, bringing important expertise to Australia. It will also strengthen Australia's international competitive ability and reputation in the field of nanophotonics.Read moreRead less
A silicon-compatible light source on a silicon-on-insulator platform. Silicon is emerging as an important photonic material owing to the cheap processing methods developed for electronics. This project aims to capture key technology for integrating photonic components onto silicon. It can bring social and commercial benefits to Australia such as high-level research as well as opportunities for commercialisation.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775729
Funder
Australian Research Council
Funding Amount
$420,000.00
Summary
Improved understanding of nanoscale materials - structure, composition, crystallography and defects revealed by electron imaging and analysis at high spatial resolution. Modern materials scientists and engineers are driven by world-wide competition to develop new technology and manufactured devices. The trend has for some time been towards miniaturisation and one of the main challenges lies in effectively characterising nanostructures that are produced as a key step in research and development o ....Improved understanding of nanoscale materials - structure, composition, crystallography and defects revealed by electron imaging and analysis at high spatial resolution. Modern materials scientists and engineers are driven by world-wide competition to develop new technology and manufactured devices. The trend has for some time been towards miniaturisation and one of the main challenges lies in effectively characterising nanostructures that are produced as a key step in research and development of advanced materials. The proposed electron microscope and detectors will provide a state-of-the-art analytical facility to support the cross-disciplinary materials science and nanotechnology research at the Australian National University. It will also provide an important training facility for students and early-career researchers and will be available to investigators from other Australian institutions.Read moreRead less
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
Special Research Initiatives - Grant ID: SR0354519
Funder
Australian Research Council
Funding Amount
$30,000.00
Summary
Network for Optical and Quantum Science and Technology. This Network links world-class researchers involved with the investigation and application of light and atoms, particularly at the quantum level. Three ARC Centres of Excellence* will be linked and networked with other successful research groups in optics, including atom optics and Bose-Einstein condensation (BEC), quantum computing, optical switching, imaging, and interferometry. The Network-facilitated interactions will foster multidisci ....Network for Optical and Quantum Science and Technology. This Network links world-class researchers involved with the investigation and application of light and atoms, particularly at the quantum level. Three ARC Centres of Excellence* will be linked and networked with other successful research groups in optics, including atom optics and Bose-Einstein condensation (BEC), quantum computing, optical switching, imaging, and interferometry. The Network-facilitated interactions will foster multidisciplinary approaches linking the majority of the Australian optics community, and harnessing Australia's existing research excellence in optics to address major questions in optical and quantum science and technology.
* Quantum-Atom Optics (ACQAO), Quantum Computing Technology (CQCT), Ultrahigh Bandwidth Devices and Optical Systems (CUDOS).
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Light control in nonlinear periodic structures. New technologies for precise control of light in microstructured periodic materials hold promises for breakthroughs in all-optical computing and communication areas. This project will develop novel concepts and innovative techniques to dynamically induce periodic structures in highly nonlinear materials for active control of light by light itself. It will combine experiment and theory to reveal and engineer the key aspects of light propagation in t ....Light control in nonlinear periodic structures. New technologies for precise control of light in microstructured periodic materials hold promises for breakthroughs in all-optical computing and communication areas. This project will develop novel concepts and innovative techniques to dynamically induce periodic structures in highly nonlinear materials for active control of light by light itself. It will combine experiment and theory to reveal and engineer the key aspects of light propagation in these structures, such as beam shaping and interactions. The outcome of this fundamental research will open-up new directions for technological advances in the photonics industry, with applications in all-optical switching and information storage.Read moreRead less
Develoment of a quantum repeater. Quantum information processing is a powerful emerging technology that aims to fully exploit the properties of quantum mechanics to perform computations and securely transmit information. This project will develop an essential component for this technology that will enable for the first time the direct and reversible transfer of quantum information between solid-state quantum systems and light. Successful completion of this project will provide a route to fully s ....Develoment of a quantum repeater. Quantum information processing is a powerful emerging technology that aims to fully exploit the properties of quantum mechanics to perform computations and securely transmit information. This project will develop an essential component for this technology that will enable for the first time the direct and reversible transfer of quantum information between solid-state quantum systems and light. Successful completion of this project will provide a route to fully scalable quantum computing and long range quantum networks. This project will help secure Australia's leading role in this strategically important new generation technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100116
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
100 Gbit to 1 Terabit per second optical communication test bed facility. This facility will develop and demonstrate novel optical technologies that will underpin the generation and transmission of a higher-speed Ethernet at 100 Gb/s to 1Terabit/s, and will lead to better broadband and more energy efficient internet. At the foundation of this research will be a test bed with multiple signal sources at data rates above 50 Gbaud.