Printable Multi-Bit Radio Frequency Identification for Banknotes. This project will investigate inexpensive radio-frequency transponders on banknotes that enjoy all of the advantages of, and, indeed, operate in a manner somewhat similar to barcodes. Transponders of this type may potentially replace barcode technology, thereby allowing automated identification of individual banknotes at multiple points in transaction chains. The resulting efficiencies in banknote authentication and other applic ....Printable Multi-Bit Radio Frequency Identification for Banknotes. This project will investigate inexpensive radio-frequency transponders on banknotes that enjoy all of the advantages of, and, indeed, operate in a manner somewhat similar to barcodes. Transponders of this type may potentially replace barcode technology, thereby allowing automated identification of individual banknotes at multiple points in transaction chains. The resulting efficiencies in banknote authentication and other applications will generate a significant economic benefit for Australia. Additionally, the development of state-of-the-art transponders based on fundamental microwave- and antenna engineering prospectively gives Australia a cutting-edge advantage as a leading player in the fast-growing RFID market.Read moreRead less
Special Research Initiatives - Grant ID: SR0354527
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Frontier technologies, prototypes and strategic positioning for the international radio telescope, the Square Kilometre Array. This Network will forge new linkages between scientists and engineers to design and enable an advanced prototype for the international next-generation radio telescope, the Square Kilometre Array (SKA). The prototype will make fundamental new tests of general relativity and the physics of dark energy and test SKA imaging and signal processing systems. The Network partners ....Frontier technologies, prototypes and strategic positioning for the international radio telescope, the Square Kilometre Array. This Network will forge new linkages between scientists and engineers to design and enable an advanced prototype for the international next-generation radio telescope, the Square Kilometre Array (SKA). The prototype will make fundamental new tests of general relativity and the physics of dark energy and test SKA imaging and signal processing systems. The Network partners will collaborate to develop low-cost technologies for ultra-wideband antennas, high-speed signal processing, software radios, mitigation of man-made interference and the handling of petabyte data sets. The aim is a leading role for Australian researchers and industry in the $2 billion SKA.Read moreRead less
Investigation of vertical magneto-transport in infrared detector structures based on InAs/GaSb type-II superlattices. Infrared sensors and systems are finding increasing use in Australia's core industries: particularly defence, mineral exploration, environmental monitoring, precision agriculture, homeland security, and medical diagnostics. Due to the reduced cooling requirements, the Infrared detector structures to be investigated in this project have the potential to deliver high performance in ....Investigation of vertical magneto-transport in infrared detector structures based on InAs/GaSb type-II superlattices. Infrared sensors and systems are finding increasing use in Australia's core industries: particularly defence, mineral exploration, environmental monitoring, precision agriculture, homeland security, and medical diagnostics. Due to the reduced cooling requirements, the Infrared detector structures to be investigated in this project have the potential to deliver high performance infrared technology at a significantly lower cost and, hence, widening its applications. The new science proposed in this project, and new technological knowledge expected from its application, will allow Australian researchers to participate and significantly contribute to the international effort in this field and to exploit any developed intellectual property. Read moreRead less
Special Research Initiatives - Grant ID: SR0354721
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Frontier and Security Technologies Microfabrication Network. This Initiative will conduct a comprehensive survey of Australia's resources in micro-fabrication, a key enabling technology for two national research priority areas, and generate new collaboration opportunities that capitalise on this resource base and open it to a wider range of applications. The Initiative will focus on photonics, nano-materials and security applications, and will identify gaps in micro-fabrication capabilities requ ....Frontier and Security Technologies Microfabrication Network. This Initiative will conduct a comprehensive survey of Australia's resources in micro-fabrication, a key enabling technology for two national research priority areas, and generate new collaboration opportunities that capitalise on this resource base and open it to a wider range of applications. The Initiative will focus on photonics, nano-materials and security applications, and will identify gaps in micro-fabrication capabilities required to support research in these areas. The outcomes will be a key element in a national strategic plan for these areas of national priority. The web site will demonstrate key features of the IT-based support features of a micro-fabrication network.Read moreRead less
High-speed bidirectional optical interconnects for board-to-board communications. The project will contribute directly to Australia's participation in various ICT industries through the development of innovative solutions and will increase the knowledge and skills base in silicon-photonics. The development of the proposed board-to-board high-speed optical interconnect prototypes will result in R&D outcomes well-matched to the needs and interests of Australian companies; this project will assist ....High-speed bidirectional optical interconnects for board-to-board communications. The project will contribute directly to Australia's participation in various ICT industries through the development of innovative solutions and will increase the knowledge and skills base in silicon-photonics. The development of the proposed board-to-board high-speed optical interconnect prototypes will result in R&D outcomes well-matched to the needs and interests of Australian companies; this project will assist Australia to capitalise on new technology and to become a significant player in the next ICT boom. This project will put Australia at the cutting edge of high-speed interconnect technology and will generate income through licensing the technology and the establishment of spin-off opportunities in both Australia and off-shore.Read moreRead less
Photonic Antenna: Nested multi-band patch antenna and arrayed photonic interconnect. This project aims to investigate the design of a broadband ?photonic antenna? for airborne radar warning and electronic countermeasure systems. The project will investigate the development of a suite of printed antennas that cover bands in the range from 2-40 GHz realised on a single substrate. Nesting these antennas to reduce system size, and integration of this module with a custom optical modulator array and ....Photonic Antenna: Nested multi-band patch antenna and arrayed photonic interconnect. This project aims to investigate the design of a broadband ?photonic antenna? for airborne radar warning and electronic countermeasure systems. The project will investigate the development of a suite of printed antennas that cover bands in the range from 2-40 GHz realised on a single substrate. Nesting these antennas to reduce system size, and integration of this module with a custom optical modulator array and RF signal combiner will be investigated. The resulting broadband antenna suite with photonic interconnect will require minimal fabrication and packaging resources, and will thus be an economically viable photonic solution for practical defence systems.Read moreRead less
Tools and techniques for cost effective creation of new, reliable and efficient microwave transistors for millimetre wave and wireless applications. Shifting the circuit design paradigm to the requirements of a circuit will provide a low-cost design solution for application with tight size, performance and lifetime constraints. This will enhance the international competitiveness of Mimix Broadband in the microwave wireless, aerospace, and radar markets, which will contribute to Australia's high ....Tools and techniques for cost effective creation of new, reliable and efficient microwave transistors for millimetre wave and wireless applications. Shifting the circuit design paradigm to the requirements of a circuit will provide a low-cost design solution for application with tight size, performance and lifetime constraints. This will enhance the international competitiveness of Mimix Broadband in the microwave wireless, aerospace, and radar markets, which will contribute to Australia's high performance circuit design sector. New knowledge and skilled researchers provided by this project will foster growth of the microwave and wireless industry. The local research community will be advantaged in international reputation and in its efforts to develop future high performance wireless systems.Read moreRead less
Towards Photonic and Electronic Devices for High Indium Content Nitride Semiconductors. Nitride semiconductors are widely used in mobile phone and lighting applications. The Low Temperature Nitride Semiconductor Group at Macquarie University have specialized in improving the quality of these materials using growth techniques that will allow gallium nitride to become commercially viable for room lighting. In collaboration with researchers in Europe we intend to develop and exploit the next genera ....Towards Photonic and Electronic Devices for High Indium Content Nitride Semiconductors. Nitride semiconductors are widely used in mobile phone and lighting applications. The Low Temperature Nitride Semiconductor Group at Macquarie University have specialized in improving the quality of these materials using growth techniques that will allow gallium nitride to become commercially viable for room lighting. In collaboration with researchers in Europe we intend to develop and exploit the next generation of nitride materials for high-speed mobile communications and photonic applications. The team assembled for this project have excellent credentials in the development of these materials and, importantly, an excellent ability to probe and understand material phenomena.Read moreRead less
Asymmetric InP-based structures for high power laser diodes at 1400-1500 nm for pumping optical amplifiers used in communication systems. This project is aimed at obtaining high power, single mode 1400-1500 nm wavelength laser diodes using a novel design of asymmetric InP-based structures. These devices are in great demand for pumping of erbium-doped and Raman amplifiers for powering the next generation of dense wavelength division multiplexing optical networks. The low modal gain (confinement f ....Asymmetric InP-based structures for high power laser diodes at 1400-1500 nm for pumping optical amplifiers used in communication systems. This project is aimed at obtaining high power, single mode 1400-1500 nm wavelength laser diodes using a novel design of asymmetric InP-based structures. These devices are in great demand for pumping of erbium-doped and Raman amplifiers for powering the next generation of dense wavelength division multiplexing optical networks. The low modal gain (confinement factor) of this asymmetric structure is expected to reduce internal losses and hence increase the output power with better thermal dissipation. Single mode could be obtained by careful design in the trade-off between filamentation and threshold current. Ion implantation is also proposed to suppress higher order modes.Read moreRead less
Achieving high linearity over broad bands in transistor circuits for communication applications. This project provides techniques to achieve the distortion performance required for the next generation communication circuits. By establishing new knowledge and skill within Australia to expand international competitiveness, it will position Australia as the leader in high performance circuit design, strengthen international collaboration, and allow the development of high performance broadband syst ....Achieving high linearity over broad bands in transistor circuits for communication applications. This project provides techniques to achieve the distortion performance required for the next generation communication circuits. By establishing new knowledge and skill within Australia to expand international competitiveness, it will position Australia as the leader in high performance circuit design, strengthen international collaboration, and allow the development of high performance broadband systems. An opportunity will be presented to enter the transistor characterization market on a competitive basis, which is a business suited to distance working within the international sector. Improved circuit performance will enable breakthrough discoveries in areas like radio astronomy, medical imaging, radar and detection, and instrumentation.Read moreRead less