Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668257
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
Combinatorial Deposition and Characterisation Facility for New Alloy Thin Film Materials. Australia's competitive edge in materials research is key to maintaining our economic prosperity. Infrastructure that enables our researchers to synthesize novel materials with precise control over composition and structure is crucial to maintaining our strengths in this field. The proposed infrastructure will accelerate progress on the preparation and characterisation of new alloy and nanostructured materi ....Combinatorial Deposition and Characterisation Facility for New Alloy Thin Film Materials. Australia's competitive edge in materials research is key to maintaining our economic prosperity. Infrastructure that enables our researchers to synthesize novel materials with precise control over composition and structure is crucial to maintaining our strengths in this field. The proposed infrastructure will accelerate progress on the preparation and characterisation of new alloy and nanostructured materials and will pay dividends by providing early access to the best materials. This will give our energy technology, biomedical engineering, tooling, electronics and mining industries a competitive edge. Access to this new generation equipment will enhance our pool of highly skilled materials technologists.Read moreRead less
Superconducting MgB2 thin films and structures for electronic devices and telecommunication applications. Two important directions of electronic application for MgB2 films are superconducting Josephson junction (JJ) technology and passive microwave devices. Superconducting JJ technology will have a small but important niche in high-performance digital signal and data processing applications for civilian, commercial, and military terrestrial, as well as space deployment. With superconducting pass ....Superconducting MgB2 thin films and structures for electronic devices and telecommunication applications. Two important directions of electronic application for MgB2 films are superconducting Josephson junction (JJ) technology and passive microwave devices. Superconducting JJ technology will have a small but important niche in high-performance digital signal and data processing applications for civilian, commercial, and military terrestrial, as well as space deployment. With superconducting passive microwave devices, the potentially largest market in this segment are filter systems for ground- or satellite based wireless communication systems. The research outcome could support Australian companies to develop corresponding products, as well as broaden Australia's knowledge of the physics of the new MgB2 superconductor.Read moreRead less
Microscopic Origin of the Enhanced Flux Pinning in Nano-Doped MgB2 Superconductors. Magnesium diboride (MgB2) has advantages over other superconductors in terms of high performance and low costs for a wide range of applications, such as superconducting power cables, superconducting magnetic energy-storage devices, transformers, fault current limiters and motors. Besides the apparent economic benefits, the application of superconductivity will significantly reduce the green-house gas emission. Th ....Microscopic Origin of the Enhanced Flux Pinning in Nano-Doped MgB2 Superconductors. Magnesium diboride (MgB2) has advantages over other superconductors in terms of high performance and low costs for a wide range of applications, such as superconducting power cables, superconducting magnetic energy-storage devices, transformers, fault current limiters and motors. Besides the apparent economic benefits, the application of superconductivity will significantly reduce the green-house gas emission. This project will advance the practical applications of MgB2 by understanding the mechanism to improve critical current density.Read moreRead less