Quantum dynamics of solid-state qubits. The primary aim of this project is to carry out a critical assessment of several solid-state qubit systems and quantum logic gate operations through detailed theoretical calculations. This project will address important issues such as precise control of electron flux and spin interactions, optimal operating conditions, errors due to imperfection in the system and possible mechanisms for error elimination, as well as reliable measurements of the output qubi ....Quantum dynamics of solid-state qubits. The primary aim of this project is to carry out a critical assessment of several solid-state qubit systems and quantum logic gate operations through detailed theoretical calculations. This project will address important issues such as precise control of electron flux and spin interactions, optimal operating conditions, errors due to imperfection in the system and possible mechanisms for error elimination, as well as reliable measurements of the output qubit register. In addition, qubit systems have shown themselves to be tiny laboratories in which fundamental concepts in quantum mechanics can be tested and a new regime of physics can be learnt.Read moreRead less
Development of an advanced semiconductor characterisation capability for infrared focal plane array applications. Australian access to world leading technology in state-of-the-art infrared detectors is key to future advanced systems for defence surveillance and sensing, mineral exploration, biomedical instrumentation, precision agriculture, environmental monitoring and homeland security. This project will ensure that Australia contributes to an integral component required in the development of t ....Development of an advanced semiconductor characterisation capability for infrared focal plane array applications. Australian access to world leading technology in state-of-the-art infrared detectors is key to future advanced systems for defence surveillance and sensing, mineral exploration, biomedical instrumentation, precision agriculture, environmental monitoring and homeland security. This project will ensure that Australia contributes to an integral component required in the development of these technologies allowing early access to future systems. It will also enable Austarlia to play a leading role in setting the research directions for infrared materials that will place Australian research at the forefront in this area.Read moreRead less
Composite magnetic conducting nanomaterials for microwave applications. Australian science and technology will be a leading participant in the creation of a new, useful technology for microwave and magnetologic applications whose properties arise from integration of metallic magnetic nanoelements with miniature nonmagnetic current conductors. Recent proof-of-concept demonstrations have inspired an explosion of activity on a global scale. In this project, young Australian scientists and research ....Composite magnetic conducting nanomaterials for microwave applications. Australian science and technology will be a leading participant in the creation of a new, useful technology for microwave and magnetologic applications whose properties arise from integration of metallic magnetic nanoelements with miniature nonmagnetic current conductors. Recent proof-of-concept demonstrations have inspired an explosion of activity on a global scale. In this project, young Australian scientists and research students will have opportunities to receive training and become involved in a National Priority Frontier Technology rich in possibilities for generation of intellectual property.Read moreRead less