Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical ef ....Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical effects. Specially designed and modified microstructured fibres will be developed to achieve efficient coupling from fibre to planar waveguide circuits, and to a range of photonic band gap devices that are currently being developed by the industry partner.Read moreRead less
Light-Matter Interactions In Nanoparticle-doped Microstructured Polymer Fibres. Microstructured optical fibres have been defined as the 'next generation' of optical fibres. This proposal offers the opportunity to make major advances in this dynamic new area, not only changing the fibre properties by means of its microstructured but also by its material properties. The proposed research will enable us to fabricate new types of optical fibre by exploiting three completely different technologies: p ....Light-Matter Interactions In Nanoparticle-doped Microstructured Polymer Fibres. Microstructured optical fibres have been defined as the 'next generation' of optical fibres. This proposal offers the opportunity to make major advances in this dynamic new area, not only changing the fibre properties by means of its microstructured but also by its material properties. The proposed research will enable us to fabricate new types of optical fibre by exploiting three completely different technologies: polymer materials, microstructured polymer fibres (mPOF) and nanoparticles. This project will build on our existing success in developing mPOF, and create major new opportunities, both in fundamental science and in applications that could and would be commercialised.Read moreRead less