Electronic properties of diamondlike carbon for applications in planar optical waveguides. This project will explore new applications of diamondlike carbon in the area of integrated optics for telecommunications systems. Diamondlike carbon offers opportunities to create novel electro-optic devices owing to its high refractive index and its ability to be deposited directly onto silicon substrates. This project will conduct a thorough study of the electronic properties of diamondlike carbon depo ....Electronic properties of diamondlike carbon for applications in planar optical waveguides. This project will explore new applications of diamondlike carbon in the area of integrated optics for telecommunications systems. Diamondlike carbon offers opportunities to create novel electro-optic devices owing to its high refractive index and its ability to be deposited directly onto silicon substrates. This project will conduct a thorough study of the electronic properties of diamondlike carbon deposited by two techniques and develop potential niche applications in the $5 billion integrated optical telecommunications devices. The work will combine fundamental studies of thin film electronic properties with leading edge industry applications of technology and provide an excellent research training opportunity.Read moreRead less
Integrated microresonator based quantum technology. We will develop new 21st century physical technologies able to control the microscopic quantum world. These quantum technologies will build off world leading techniques to confine and manipulate light on a silicon chip, and have broad ramifications for future computing, medical, and sensing systems. New quantum architectures will be developed for information science, promising vast improvements over current systems; and new biological sensing s ....Integrated microresonator based quantum technology. We will develop new 21st century physical technologies able to control the microscopic quantum world. These quantum technologies will build off world leading techniques to confine and manipulate light on a silicon chip, and have broad ramifications for future computing, medical, and sensing systems. New quantum architectures will be developed for information science, promising vast improvements over current systems; and new biological sensing systems with world leading sensitivity will be implemented with important applications in the early detection of debilitating diseases. This research will raise Australia's profile as a world leader in science and technology, building on our already significant presence in quantum technology.Read moreRead less
Optical Quantum Computation. The study of the storage, communication and processing of information stored in quantum systems - quantum information science - is recognized as key underpinning knowledge for future technologies. Technologies of current fundamental and popular interest such as quantum computation and teleportation are likely to form the basis of future communication and computation systems with far greater power and versatility than those of today. Having a stakehold in the developm ....Optical Quantum Computation. The study of the storage, communication and processing of information stored in quantum systems - quantum information science - is recognized as key underpinning knowledge for future technologies. Technologies of current fundamental and popular interest such as quantum computation and teleportation are likely to form the basis of future communication and computation systems with far greater power and versatility than those of today. Having a stakehold in the development of these technologies will be of significant national benefit for Australia.Read moreRead less