Literary Self-Awareness and Parental Love: Challenging Alterity in Contemporary Medieval Studies. Did medieval women write about themselves as gendered individuals? Did medieval parents love their children? Despite both popular and academic opinion to the contrary, this project aims to demonstrate that these propositions are true. By studying the self-aware writings of Latin-literate medieval women and medieval parent-child advice-texts, this project aims to challenge the alterity, or otherness, ....Literary Self-Awareness and Parental Love: Challenging Alterity in Contemporary Medieval Studies. Did medieval women write about themselves as gendered individuals? Did medieval parents love their children? Despite both popular and academic opinion to the contrary, this project aims to demonstrate that these propositions are true. By studying the self-aware writings of Latin-literate medieval women and medieval parent-child advice-texts, this project aims to challenge the alterity, or otherness, of the Middle Ages, a concept which suggests that medieval people are fundamentally unlike us. In doing so, it questions the significance of alterity in the construction and practices of contemporary Medieval Studies and offers insights into possible new methodologies for the discipline.Read moreRead less
Separating Subtle Interplay between Competing/Cooperating Superconductivity and Magnetism in YBa2Cu3O7-x with Nanotechnology. Superconducting cables can carry 100 to 200 times more electric current than conventional cables. The innovations in this program could enable the widespread commercialization of more efficient types of power generation, transmission, and electrical equipment and devices, offering tremendous energy savings and emissions reductions. It is estimated that ~A$400 million pe ....Separating Subtle Interplay between Competing/Cooperating Superconductivity and Magnetism in YBa2Cu3O7-x with Nanotechnology. Superconducting cables can carry 100 to 200 times more electric current than conventional cables. The innovations in this program could enable the widespread commercialization of more efficient types of power generation, transmission, and electrical equipment and devices, offering tremendous energy savings and emissions reductions. It is estimated that ~A$400 million per year can be saved if high-Tc superconducting wires and cables were to replace conventional metallic conductors. The success of this program will greatly increase scientific understanding of hig-Tc superconductivity and expand Australia's knowledge in the research on high-Tc superconductors. The training will also provide scientific talents to the country.Read moreRead less
Current limiting mechanisms in magnesium diboride superconductors. Numerous important applications have already been identified for MgB2 wire: power transmission cables, fault current limiters, transformers and magnets for motors and generators, as well as MRI. The significant increase in current carrying capacity of one order of magnitude expected to result from the proposed program will enable MgB2 to replace presently existing low-temperature superconductors (LTS) and expensive high-temperat ....Current limiting mechanisms in magnesium diboride superconductors. Numerous important applications have already been identified for MgB2 wire: power transmission cables, fault current limiters, transformers and magnets for motors and generators, as well as MRI. The significant increase in current carrying capacity of one order of magnitude expected to result from the proposed program will enable MgB2 to replace presently existing low-temperature superconductors (LTS) and expensive high-temperature superconductors (HTS) in numerous important applications. MgB2 technology, coupled with renewable energy sources, has the potential to provide a long-term solution to the energy crisis and global warming threat.Read moreRead less
Development of high performance second generation superconductors. Robust, high performance high temperature superconductor (HTS) wire underpins a worldwide opportunity to revolutionize the electric power grid, transportation, electronics and many other industries with a new generation of high efficiency, compact, and environmentally friendly electrical equipment. This program combines our expertise in superconductor thin-film fabrication and characterization and expertise of a local industrial ....Development of high performance second generation superconductors. Robust, high performance high temperature superconductor (HTS) wire underpins a worldwide opportunity to revolutionize the electric power grid, transportation, electronics and many other industries with a new generation of high efficiency, compact, and environmentally friendly electrical equipment. This program combines our expertise in superconductor thin-film fabrication and characterization and expertise of a local industrial partner in the development of superconducting wires. The success of the proposed project will bring benefit to local industry and employment, and significantly enhance the international competitiveness in HTS of Australian industry.Read moreRead less
Semiconductor Photonic Crystal Devices. Photonic crystals will be a key element of future all-optical ultra-highspeed photonic integrated circuits for telecommunications and signal processing. This project will pioneer new structures capable of manipulating light on integrated photonic chips, based on nano-scale features in semiconductors. This will have a significant impact on Australia's photonics industry.
Development of high-temperature superconducting coated conductors by pulsed-laser deposition technique for future long-length applications. The aim of the project is to develop a novel technology for manufacturing flexible coated conductors with the help of a pulsed laser deposition technique, in order to enhance the current-carrying ability of high-temperature superconducting coatings (including multi-layered coatings) for future long-length high power applications. To achieve desirable electr ....Development of high-temperature superconducting coated conductors by pulsed-laser deposition technique for future long-length applications. The aim of the project is to develop a novel technology for manufacturing flexible coated conductors with the help of a pulsed laser deposition technique, in order to enhance the current-carrying ability of high-temperature superconducting coatings (including multi-layered coatings) for future long-length high power applications. To achieve desirable electromagnetic properties governed by the nano-structures of the coatings, a well-balanced combination of world-class "global" and "local" electromagnetic property measurements with advanced structural characterisations is suggested. It is expected that a controlled network of nano-scale pinning centres will allow the development of high performance coated conductors.Read moreRead less
Next Generation Planar Tellurite Waveguides. The project provides the basis for the production of new high technology photonic products in Australia, the availability of at least one new unique facility for future scientific endeavour, and the generation of skillsets new to Australia. New IP will also be developed during the project. A successful outcome could also ultimately result in new products offering, for example, enhanced National Security through the Defence applications, better measure ....Next Generation Planar Tellurite Waveguides. The project provides the basis for the production of new high technology photonic products in Australia, the availability of at least one new unique facility for future scientific endeavour, and the generation of skillsets new to Australia. New IP will also be developed during the project. A successful outcome could also ultimately result in new products offering, for example, enhanced National Security through the Defence applications, better measurements of atmospheric contaminants through the sensing route, and more advanced telecommunications services at lower cost for citizens and businesses, and for lower operating costs for service providers.
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Hollow-core microstructured polymer fibres for optical sensing applications. A range of remarkable new optical fibres will be fabricated utilising the capabilities of a unique polymer fibre fabrication facility and focussing on the highly demanding class of microstructured fibres in which guidance in a hollow core is achieved through photonic band gap or Bragg guidance. Long lengths of low-loss fibres of this type will be developed, and applications in optical gas sensing, spectroscopy, voltage ....Hollow-core microstructured polymer fibres for optical sensing applications. A range of remarkable new optical fibres will be fabricated utilising the capabilities of a unique polymer fibre fabrication facility and focussing on the highly demanding class of microstructured fibres in which guidance in a hollow core is achieved through photonic band gap or Bragg guidance. Long lengths of low-loss fibres of this type will be developed, and applications in optical gas sensing, spectroscopy, voltage sensing and telecommunications will be explored.Read moreRead less
Compact high voltage superconducting fault current limiter employing a new core architecture and novel magnetic materials. The proposed project is an example of applied research that utilises a frontier technology (superconductors) in an application with both national and community benefits. Fault current limiters are designed to protect electricity grids. The integration of superconductors in fault current limiting applications allows for this protection to be achieved in an energy efficient ma ....Compact high voltage superconducting fault current limiter employing a new core architecture and novel magnetic materials. The proposed project is an example of applied research that utilises a frontier technology (superconductors) in an application with both national and community benefits. Fault current limiters are designed to protect electricity grids. The integration of superconductors in fault current limiting applications allows for this protection to be achieved in an energy efficient manner, since negligible impedance is applied to the network during the un-faulted state. Effective and efficient protection of the electricity network is of national interest, with any failure affecting industry and individuals. The proposed research team is in a leading position to develop the potential of this technology for both national networks and a world market.Read moreRead less
The role of nano-structures for the super-current flow and limitation in high-temperature superconducting films and multi-layers. The aims of the project are to promote the development of the second generation of high-temperature superconductors for electrical power engineering, so-called "Coated Conductors", and to achieve enhancements of their characteristics for revolutionizing the world of the electricity, power, and energy handling. The comprehension of critical current density limiting mec ....The role of nano-structures for the super-current flow and limitation in high-temperature superconducting films and multi-layers. The aims of the project are to promote the development of the second generation of high-temperature superconductors for electrical power engineering, so-called "Coated Conductors", and to achieve enhancements of their characteristics for revolutionizing the world of the electricity, power, and energy handling. The comprehension of critical current density limiting mechanisms in films and multi-layers, as well as the construction of corresponding theoretical models will be the main scientific outcome of the project. The understanding of the interplay between fundamental and technological aspects will be a significant step towards the practical utilization of Coated Conductors.Read moreRead less