Quantum coherence of electronic transport in layered magnetoresistive materials. The continued rapid expansion of information technology requires new materials and devices for information storage. State of the art computer memories are based on new materials which consist of layers of complex arrays of atoms. These materials have metallic properties quite unlike those of simple metals such as copper and steel. This research will lead to a greater understanding of and ability to design better ma ....Quantum coherence of electronic transport in layered magnetoresistive materials. The continued rapid expansion of information technology requires new materials and devices for information storage. State of the art computer memories are based on new materials which consist of layers of complex arrays of atoms. These materials have metallic properties quite unlike those of simple metals such as copper and steel. This research will lead to a greater understanding of and ability to design better materials. Australia's capacity for research and development in this scientifically challenging and technologically important field will be enhanced by this project. Read moreRead less
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
Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems ....Quantum Nanoscience. This project will deliver a new Australian capability in the core nanotechnology of quantum electromechanical systems. Nanotechnology is a suite of techniques and processes to create new materials and devices through complex processing of constituents at the nanoscale and, in the case of quantum electromechanical systems, even with moving parts. At the nanoscale, quantum principles apply. New nano-fabrication methods are now available to build nano-electromechanical systems (NEMS), integrated with electronics and nano optics and cooled into the quantum regime. Quantum electromechanical systems (QEMS) enable new sensors with ultimate sensitivity limited only by the Heisenberg uncertainty principle, with applications in photonics, metrology and bio molecular imaging.Read moreRead less