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
Coherent Optical Orthogonal Frequency-Division Multiplexing. Coherent optical orthogonal frequency-division multiplexing (CO-OFDM) incorporates the benefits of OFDM to compensate for distortion and monitor the channel conditions in long-haul optical links. The advantages of CO-OFDM can help meet the challenges of future optical networks that Australia depends upon for its information infrastructure and economic growth. Australia is currently at the forefront of optical OFDM technology, and the ....Coherent Optical Orthogonal Frequency-Division Multiplexing. Coherent optical orthogonal frequency-division multiplexing (CO-OFDM) incorporates the benefits of OFDM to compensate for distortion and monitor the channel conditions in long-haul optical links. The advantages of CO-OFDM can help meet the challenges of future optical networks that Australia depends upon for its information infrastructure and economic growth. Australia is currently at the forefront of optical OFDM technology, and the continuation of these research activities will further improve Australia's international ICT reputation. Furthermore, in the course of the project, a senior research associate and multiple highly-skilled students will be trained and exposed to techniques and innovations in this exciting field.Read moreRead less
Instrumentation for High Voltage Power Distribution Using Optical Fibre Sensors. This project aims to realise a novel optical fibre voltage sensor, exploit a recent discovery of Bassett and Haywood in interferometry to improve an existing optical current sensor, and bring the voltage and current sensor together in a combined field trial on a high voltage distribution network.
The voltage sensor concept is unique and provides significant advantages.
The expected outcomes of this project are an ....Instrumentation for High Voltage Power Distribution Using Optical Fibre Sensors. This project aims to realise a novel optical fibre voltage sensor, exploit a recent discovery of Bassett and Haywood in interferometry to improve an existing optical current sensor, and bring the voltage and current sensor together in a combined field trial on a high voltage distribution network.
The voltage sensor concept is unique and provides significant advantages.
The expected outcomes of this project are an electro-optically active silica fibre suitable for voltage sensing, a prototype voltage sensor and signal processing system, and a prototype combined electrical power (voltage and current) measurement unit deployed in a field trial.
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Optical Multiple-Input Multiple-Output Communication Systems. Optical multiple-input multiple-output (MIMO) systems exploit a simple yet powerful principle of diversity to improve the capacity and robustness of optical networks. This proposal focuses on making the most use of two polarisation modes intrinsic to the fiber by applying MIMO techniques to the optical communication systems. This project can potentially create many commercial opportunities in Australia in the area of integrated photon ....Optical Multiple-Input Multiple-Output Communication Systems. Optical multiple-input multiple-output (MIMO) systems exploit a simple yet powerful principle of diversity to improve the capacity and robustness of optical networks. This proposal focuses on making the most use of two polarisation modes intrinsic to the fiber by applying MIMO techniques to the optical communication systems. This project can potentially create many commercial opportunities in Australia in the area of integrated photonic circuits and high-speed digital signal processing. The funding support of these research activities will further enhance Australia's international ICT reputation in this emerging field.Read moreRead less
New Approach to Photonic Interferometry with Applications in Sensing. This project is based on a new technique for photonic interferometry, the Network Independent Multiple Interrogation (NIMI) technique.
This project aims to:
1) gain a better understanding of the NIMI method
2) exploit the NIMI technique in other applications
3) provide the key technology for future optical, current and voltage sensing systems for high voltage networks.
This work is significant as it represents a breakthro ....New Approach to Photonic Interferometry with Applications in Sensing. This project is based on a new technique for photonic interferometry, the Network Independent Multiple Interrogation (NIMI) technique.
This project aims to:
1) gain a better understanding of the NIMI method
2) exploit the NIMI technique in other applications
3) provide the key technology for future optical, current and voltage sensing systems for high voltage networks.
This work is significant as it represents a breakthrough in interferometry, with wide applications in scientific and engineering instrumentation.
The expected outcomes are:
1) an improved understanding of the merits and limitations of the NIMI technique
2) new application of the NIMI technique
3) improvements to the NIMI technique and the optical high voltage sensing systems to which it is appliedRead moreRead less
Special Research Initiatives - Grant ID: SR0567533
Funder
Australian Research Council
Funding Amount
$120,000.00
Summary
Scientific Instruments as ICT Components in Building a GrEMLIN for e-Research. The proposal seeks to initiate the development of a GrEMLIN, a Grid Enabled Multi-Level Instrument Network, for e-Research. Scientific instruments, whether at conventional laboratories or at major facilities, may be regarded as specialised ICT components in a network providing remote access to such instrumentation. Collaborative remote access and data analysis brings efficiency and effectiveness dividends, that can ....Scientific Instruments as ICT Components in Building a GrEMLIN for e-Research. The proposal seeks to initiate the development of a GrEMLIN, a Grid Enabled Multi-Level Instrument Network, for e-Research. Scientific instruments, whether at conventional laboratories or at major facilities, may be regarded as specialised ICT components in a network providing remote access to such instrumentation. Collaborative remote access and data analysis brings efficiency and effectiveness dividends, that can be enhanced through the harnessing of Grid technologies. The collaborative project will leverage middleware, Web Services and e-Science software developments in the US and UK, to provide Grid enabled remote instrument access and data analysis as a powerful e-Research tool.Read moreRead less