Complex Dopant Diffusivity in Photonic Crystal Fibres and Applications. The outcomes of this research in the area of doped photonic crystal fibres will enable Australia to commercialise the technology and provide an opportunity for leading commercial ventures using novel doped PCF. These opportunities will eventually become large-scale industrial activities developed from the research in fields such as sensing, biophotonics, medical and defence and will result in significant economic benefit for ....Complex Dopant Diffusivity in Photonic Crystal Fibres and Applications. The outcomes of this research in the area of doped photonic crystal fibres will enable Australia to commercialise the technology and provide an opportunity for leading commercial ventures using novel doped PCF. These opportunities will eventually become large-scale industrial activities developed from the research in fields such as sensing, biophotonics, medical and defence and will result in significant economic benefit for Australia. Fundamental research outcomes in glass and dopants that can boost devices and introduce novel devices resulting from this project will contribute to all National Research Priorities.Read moreRead less
Fibre amplifiers and lasers with enhanced and novel functionality based on novel fibre fabricated by chelate modified chemical vapour deposition. This project will explore the application of a novel technique of fibre fabrication (chelate delivery in MCVD) to rare-earth doped fibres for fibre lasers and amplifiers. The chelate technique allows much greater control of the doping than has previously been possible. Higher rare-earth concentrations and greater control over dopant placement will perm ....Fibre amplifiers and lasers with enhanced and novel functionality based on novel fibre fabricated by chelate modified chemical vapour deposition. This project will explore the application of a novel technique of fibre fabrication (chelate delivery in MCVD) to rare-earth doped fibres for fibre lasers and amplifiers. The chelate technique allows much greater control of the doping than has previously been possible. Higher rare-earth concentrations and greater control over dopant placement will permit fibre lasers and amplifiers with increased and novel functionality.Read moreRead less
Development of deformation-failure-mechanism based parameters for design of microstructured optical fibre and photonics assembly. Australia has exceptional quality and depth in photon science research, with a demonstrated capacity to found and grow commercial ventures. However, the optimal design of interconnections in a photonic package is severely restricted by a lack of detailed knowledge of their deformation and failure mechanisms. The proposed study will use novel techniques to create a bas ....Development of deformation-failure-mechanism based parameters for design of microstructured optical fibre and photonics assembly. Australia has exceptional quality and depth in photon science research, with a demonstrated capacity to found and grow commercial ventures. However, the optimal design of interconnections in a photonic package is severely restricted by a lack of detailed knowledge of their deformation and failure mechanisms. The proposed study will use novel techniques to create a basis for mechanism-based deformation and failure models that will then be used to improve the design and lifetime of new type microstructured optical fibres and adhesive assemblies, expanding and enhancing Australia's capacity in the areas.
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