Understanding and Modeling Individual Choices in Applied Economics. The fellowship will create a critical mass of researchers in choice modeling theory and methods in areas that Australia needs to sustain economic progress and plan for the future. It will significantly advance knowledge in several major areas: design of health insurance markets; tests for adverse selection in insurance markets; ability of people to plan for retirement (superannuation choices); ability of people to plan and choos ....Understanding and Modeling Individual Choices in Applied Economics. The fellowship will create a critical mass of researchers in choice modeling theory and methods in areas that Australia needs to sustain economic progress and plan for the future. It will significantly advance knowledge in several major areas: design of health insurance markets; tests for adverse selection in insurance markets; ability of people to plan for retirement (superannuation choices); ability of people to plan and choose in dynamic environments; and decisions to adopt new technologies/products in evolving technology markets. The outcome will be new ways to understand and predict choices that can significantly improve practices in business and other organisations.Read moreRead less
The diversity and assembly of optics in nature. Optics, such as the design of new coloured reflectors, is a research strength for Australia. A reason for this is the potential for application - optical devices can be found far and wide in our everyday lives, from security devices on banknotes (holograms), to computer monitors (LCDs). An interesting parallel exists in nature - animals possess similar optical devices to those we use. So it makes sense to examine the animals' devices in a search fo ....The diversity and assembly of optics in nature. Optics, such as the design of new coloured reflectors, is a research strength for Australia. A reason for this is the potential for application - optical devices can be found far and wide in our everyday lives, from security devices on banknotes (holograms), to computer monitors (LCDs). An interesting parallel exists in nature - animals possess similar optical devices to those we use. So it makes sense to examine the animals' devices in a search for new reflectors, and that's an aim of this project. And since reflectors are often difficult to make, why not let animals make reflectors for us? That is a further aim of this project. Soon we may have genetically-altered butterfly scales embedded in our credit cards that cannot be counterfeited.Read moreRead less
Fault-tolerant operation and scale-up of a silicon quantum computer beyond laboratory prototypes. The Centre for Quantum Computer Technology's mission is the construction of a prototype few-qubit silicon quantum processor to demonstrate the feasibility of this breakthrough technology for massively parallel computation. This application will initiate a new strategic research program within the Centre to address the key issue of interfacing laboratory with silicon CMOS microelectronics. The Hybrid ....Fault-tolerant operation and scale-up of a silicon quantum computer beyond laboratory prototypes. The Centre for Quantum Computer Technology's mission is the construction of a prototype few-qubit silicon quantum processor to demonstrate the feasibility of this breakthrough technology for massively parallel computation. This application will initiate a new strategic research program within the Centre to address the key issue of interfacing laboratory with silicon CMOS microelectronics. The Hybrid Quantum- Conventional Processor will provide calibrated gate control and readout of individual buried atom quantum bits,to run logic operations with quantum error correction. This program will require a deep understanding of physics issues to develop fault tolerant coherent control of qubit arrays for real applications.Read moreRead less
Coherent Transport of Spin Qubits in an Engineered-Atom Silicon Quantum Computer: Demonstrating the Critical Spintronics. The project will enhance Australia's scientific credentials in the nanotechnology national priority area and research capacity to play a role in the next-generation computer industry based on quantum technologies. Through its involvement of young postgraduate students and postdoctoral researchers in advanced science and technology, and strong international positioning, it wil ....Coherent Transport of Spin Qubits in an Engineered-Atom Silicon Quantum Computer: Demonstrating the Critical Spintronics. The project will enhance Australia's scientific credentials in the nanotechnology national priority area and research capacity to play a role in the next-generation computer industry based on quantum technologies. Through its involvement of young postgraduate students and postdoctoral researchers in advanced science and technology, and strong international positioning, it will strengthen Australia's intellectual capital and increase the prestige of Australian science. Quantum technology has the potential to impact the economy of nations and has important implications for national security. The project, through its focus on critical spintronic technology, will reinforce the investment in the Centre for Quantum Computer Technology.Read moreRead less