Brillouin processing for carrier recovery in optical communications. This project aims to apply Brillouin processing to the development of an innovative, self-tracking optical filter for isolating optical carriers in the coherent receiver of future ultrahigh bit-rate optical communication systems. By recovering a needle-like optical carrier with great precision from a drifting sea of wide-band noise and data channels, the project expects to minimise the effect of optical carrier distortions on t ....Brillouin processing for carrier recovery in optical communications. This project aims to apply Brillouin processing to the development of an innovative, self-tracking optical filter for isolating optical carriers in the coherent receiver of future ultrahigh bit-rate optical communication systems. By recovering a needle-like optical carrier with great precision from a drifting sea of wide-band noise and data channels, the project expects to minimise the effect of optical carrier distortions on the data-carrying signals. The project should advance knowledge in optical signal processing and communications technologies, with outcomes that increase the data-carrying capacity of optical networks. Future telecommunication networks should benefit through improved transmission rates and extended fibre links.Read moreRead less
Breaking the glass ceiling: silicon-nitride (SiN) and doped silica glass for ultra high speed Complementary metal-oxide-semiconductor (CMOS) compatible optical processing and measurement chips. The global internet demands for energy and technology will soon be unsustainable. This project will pioneer faster, cheaper, far smaller, and more energy efficient optical signal processing and measurement chips compatible with silicon CMOS technology, for applications in telecommunications, silicon integ ....Breaking the glass ceiling: silicon-nitride (SiN) and doped silica glass for ultra high speed Complementary metal-oxide-semiconductor (CMOS) compatible optical processing and measurement chips. The global internet demands for energy and technology will soon be unsustainable. This project will pioneer faster, cheaper, far smaller, and more energy efficient optical signal processing and measurement chips compatible with silicon CMOS technology, for applications in telecommunications, silicon integrated circuits, and fundamental science.Read moreRead less