Development of new technology for coated conductors able to carry "over-critical" current densities. The superconductivity phenomenon has extremely attractive feature, that superconductors can carry non-dissipative currents, enabling us to reduce energy consumption by up to 50%. The new advanced method suggested in this project might give a new, fresh and inexpensive boost to not only domestic superconducting industry, but also worldwide. The development of new high performance superconductor te ....Development of new technology for coated conductors able to carry "over-critical" current densities. The superconductivity phenomenon has extremely attractive feature, that superconductors can carry non-dissipative currents, enabling us to reduce energy consumption by up to 50%. The new advanced method suggested in this project might give a new, fresh and inexpensive boost to not only domestic superconducting industry, but also worldwide. The development of new high performance superconductor technology would significantly promote fundamental understanding and knowledge of the poorly investigated "long-range" magnetic interaction between magnetic and superconducting materials. The University of Wollongong would lead the world research community in this practically important and scientifically intriguing area.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
ARROW - the route to better Photonic Crystal Fibres. The Frontier Technology based on Photonic crystal fibres (PCFs) will be a vital component of next generation photonic networks and devices. Australia is among the 5 leading nations in PCF research. However we are now at a pivotal stage in the development of PCFs: their production is close to maturity, and it is now up to PCF designers to make the difference. The proposed project will provide the Australian scientific community as well as Austr ....ARROW - the route to better Photonic Crystal Fibres. The Frontier Technology based on Photonic crystal fibres (PCFs) will be a vital component of next generation photonic networks and devices. Australia is among the 5 leading nations in PCF research. However we are now at a pivotal stage in the development of PCFs: their production is close to maturity, and it is now up to PCF designers to make the difference. The proposed project will provide the Australian scientific community as well as Australian photonics companies with advanced PCF designing capabilities, giving Australia an opportunity to take a leading position in PCF development and commercialisation. Read moreRead less