Quantum Nanotechnology: Concepts to Devices. Just as the technological advances of the past few decades at the micro level fundamentally changed our lives, so too the emerging era of 'quantum nanotechnology' promises to revolutionise our society in the 21st century. This Fellowship will explore and develop critical areas of quantum nanotechnology - absolutely secure communication, nanoscopic level imaging, and exponentially fast computers. Such technology will have far reaching applications in a ....Quantum Nanotechnology: Concepts to Devices. Just as the technological advances of the past few decades at the micro level fundamentally changed our lives, so too the emerging era of 'quantum nanotechnology' promises to revolutionise our society in the 21st century. This Fellowship will explore and develop critical areas of quantum nanotechnology - absolutely secure communication, nanoscopic level imaging, and exponentially fast computers. Such technology will have far reaching applications in all areas of society and provide significant National benefit.Read moreRead less
Spins in Organic Semiconductors. This project aims to understand the role that the quantum mechanical property of spin plays in the operation of electronic devices based on organic semiconductors, which will contribute to the design of better, more efficient devices. We will also investigate fundamental physics questions in organic material - the knowledge gained may be used to develop organic electronic devices with new, useful properties. Organic electronics are a growing industry and this res ....Spins in Organic Semiconductors. This project aims to understand the role that the quantum mechanical property of spin plays in the operation of electronic devices based on organic semiconductors, which will contribute to the design of better, more efficient devices. We will also investigate fundamental physics questions in organic material - the knowledge gained may be used to develop organic electronic devices with new, useful properties. Organic electronics are a growing industry and this research will enhance Australia's role in their development and commercialization. Improving the efficiency of organic lighting emitting devices will reduce Australia's energy use and greenhouse gas emissions, as lighting represents a significant fraction of our energy usage.Read moreRead less
Atomic-Scale Identification of Amorphization and Relaxation Processes in Compound Semiconductors. We seek a fundamental understanding of the processes that govern implantation-induced structure, at the nanometer scale, in the compound semiconductors used in photonic device fabrication. Since implantation-induced disorder limits the performance of such devices, the proposed project is of substantial technological significance and national benefit. The Photon Science techniques of perturbed angu ....Atomic-Scale Identification of Amorphization and Relaxation Processes in Compound Semiconductors. We seek a fundamental understanding of the processes that govern implantation-induced structure, at the nanometer scale, in the compound semiconductors used in photonic device fabrication. Since implantation-induced disorder limits the performance of such devices, the proposed project is of substantial technological significance and national benefit. The Photon Science techniques of perturbed angular correlation and extended x-ray absorption fine structure spectroscopy will be used to identify the mechanism of amorphisation and relaxation in order to enable more effective exploitation of compound semiconductors in advanced telecommunications systems.Read moreRead less