Plasmon mode lasers; smaller, faster, better. High speed Information Technology (IT) communication is using more and more of our global energy. Energy efficiency of IT hardware can be improved by incorporating small, high performance lasers for short distance optical communication. New metallic and plasmonic nano-lasers lasers are indeed smaller and in theory can have performance advantages over current dielectric cavity lasers. This project looks at developing new electrically pumped plasmonic ....Plasmon mode lasers; smaller, faster, better. High speed Information Technology (IT) communication is using more and more of our global energy. Energy efficiency of IT hardware can be improved by incorporating small, high performance lasers for short distance optical communication. New metallic and plasmonic nano-lasers lasers are indeed smaller and in theory can have performance advantages over current dielectric cavity lasers. This project looks at developing new electrically pumped plasmonic lasers with nano scale semiconductors that satisfy requirements for short distance optical communications. Complex systems of these small, fast lasers will also be investigated, with the aim of providing high speed digital processing capabilities exceeding those of electronics.Read moreRead less
Probing and harnessing the light-matter interactions in two-dimensional phosphorene. This project aims to investigate phosphorene, a new two-dimensional material, for the development of new optical and electronic devices. Such materials have unique optical and electronic properties due to their flat physical structure, which gives rise to strong interactions between light and matter. The expected outcome of this project will be new kinds of near infrared light emitting diodes, single photon emit ....Probing and harnessing the light-matter interactions in two-dimensional phosphorene. This project aims to investigate phosphorene, a new two-dimensional material, for the development of new optical and electronic devices. Such materials have unique optical and electronic properties due to their flat physical structure, which gives rise to strong interactions between light and matter. The expected outcome of this project will be new kinds of near infrared light emitting diodes, single photon emitters and ground-breaking lasers. These developments will enable the fabrication of new low-power light sources that can integrate with communication technologies now, and quantum communication technologies in the future.Read moreRead less