Computational Nanofluidics. This project will generate an increased level of skill and expertise in Australia in the emerging science of nanotechnology. To realise the promise of nanotechnology, a means of controlled propulsion on the nano scale is vital. A deeper understanding of nanofluidics that allows greater predictive capacities can greatly aid this realisation. It is highly likely that computational nanofluidics will play as important a role in nanotechnology based industries as computat ....Computational Nanofluidics. This project will generate an increased level of skill and expertise in Australia in the emerging science of nanotechnology. To realise the promise of nanotechnology, a means of controlled propulsion on the nano scale is vital. A deeper understanding of nanofluidics that allows greater predictive capacities can greatly aid this realisation. It is highly likely that computational nanofluidics will play as important a role in nanotechnology based industries as computational fluid dynamics (CFD) currently plays in today's manufacturing, automotive and aerospace industries. The skills and knowledge gained from this project will enhance our international competitiveness in this area. Read moreRead less
Principles of Quantum Information Science. The use of quantum mechanical systems to carry and process information is enabling a revolution in information technology through innovations such as quantum computation and quantum teleportation. This project investigates the fundamental theory of quantum information science. The project aims to formulate general principles governing the power and behaviour of quantum information. These principles will, in turn, enable the development of powerful new ....Principles of Quantum Information Science. The use of quantum mechanical systems to carry and process information is enabling a revolution in information technology through innovations such as quantum computation and quantum teleportation. This project investigates the fundamental theory of quantum information science. The project aims to formulate general principles governing the power and behaviour of quantum information. These principles will, in turn, enable the development of powerful new applications of quantum information. Principal areas to be addressed include: general conditions for a physical system to be usable for quantum computation, the development of new algorithms for quantum computers, the development of new quantum communication protocols, and the theory of quantum entanglement.Read moreRead less
Accurate quantum modeling of the van der Waals interaction and its application to molecular physisorption onto surfaces. Developing zero emission clean fuel technology for transportation and developing sensitive diagnostic markers for medical diagnosis will clearly benefit Australia. In both cases large technological challenges need to be overcome. This investigation will provide theoretical insight and understanding into the molecular processes which underpin these highly desirable technologies ....Accurate quantum modeling of the van der Waals interaction and its application to molecular physisorption onto surfaces. Developing zero emission clean fuel technology for transportation and developing sensitive diagnostic markers for medical diagnosis will clearly benefit Australia. In both cases large technological challenges need to be overcome. This investigation will provide theoretical insight and understanding into the molecular processes which underpin these highly desirable technologies and aid scientists and engineers in their development. A further, more general, outcome will be an accurate and predictive methodology for investigating nanotechnology problems in any material where molecular physisorption is an important process.Read moreRead less
Fundamental Theoretical Study of Hydrogen Interactions with Novel Nanostructures. While governments around the world are planning to implement a hydrogen-based energy economy in the next several decades, the delivery of practical hydrogen energy technology has proven elusive to date, with major developments required in the production, storage and transport of hydrogen. This research will undertake to provide one key step in the development of safe and efficient hydrogen storage, namely a fundam ....Fundamental Theoretical Study of Hydrogen Interactions with Novel Nanostructures. While governments around the world are planning to implement a hydrogen-based energy economy in the next several decades, the delivery of practical hydrogen energy technology has proven elusive to date, with major developments required in the production, storage and transport of hydrogen. This research will undertake to provide one key step in the development of safe and efficient hydrogen storage, namely a fundamental study delivering basic knowledge of hydrogen interactions with nano-structured materials constructed from inexpensive light metals such as Aluminium.Read moreRead less
Quantum decoherence: A game-theoretic perspective. Algorithms based on quantum computation have the ability to significantly speed up information processing compared to standard computers. The increase in computational power can have enormous impact on humankind and this project will help maintain Australia's position in the global forefront of this effort.This project focuses on the thoeretical foundations of quantum computation and complements the efforts of several groups in Australia collabo ....Quantum decoherence: A game-theoretic perspective. Algorithms based on quantum computation have the ability to significantly speed up information processing compared to standard computers. The increase in computational power can have enormous impact on humankind and this project will help maintain Australia's position in the global forefront of this effort.This project focuses on the thoeretical foundations of quantum computation and complements the efforts of several groups in Australia collaborating on the experimental design of quantum computers. The project will increase the fundamental understanding of how quantum information is processed in the presence of noise, which is necessary for the successful operation of quantum computers. Read moreRead less
Study of mathematical models of evolution using the theory of quantum games - strengthening the theoretical foundation of quantum computation. The fields of nanotechnology, quantum technology and quantum information processing are rapidly converging. This project aims to provide a novel approach in the fundamental understanding of quantum computation/information by using methods inspired by mathematics of evolutionary competition. The project will contribute towards the theoretical foundations o ....Study of mathematical models of evolution using the theory of quantum games - strengthening the theoretical foundation of quantum computation. The fields of nanotechnology, quantum technology and quantum information processing are rapidly converging. This project aims to provide a novel approach in the fundamental understanding of quantum computation/information by using methods inspired by mathematics of evolutionary competition. The project will contribute towards the theoretical foundations of quantum computation by complementing efforts of several groups in Australia collaborating on the experimental design of quantum computers. The outcome of this project will contribute towards the successful operation of quantum computers and will help maintain Australia's position in the global forefront of quantum computation/information.
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Neutron Scattering in Biology. Australia's Replacement Research Reactor will be a world-class neutron source, and represents the country's largest single investment in scientific research infrastructure. It is now essential to stimulate its production of high-quality research in materials science, chemistry and biology. The applicant is a recognised world leader in the field of neutron scattering research, particularly in biology. His presence in the Bragg Institute, which manages the neutron ....Neutron Scattering in Biology. Australia's Replacement Research Reactor will be a world-class neutron source, and represents the country's largest single investment in scientific research infrastructure. It is now essential to stimulate its production of high-quality research in materials science, chemistry and biology. The applicant is a recognised world leader in the field of neutron scattering research, particularly in biology. His presence in the Bragg Institute, which manages the neutron scattering instruments on the reactor, will provide direction and impetus for the science that will be initiated there, advancing applications in materials science, medicine and biotechnology.Read moreRead less
Understanding and controlling the processes underlying self assembly of nanostructures on surfaces. Efficient clean fuel technology, new classes of nano- and bio-materials, bio specific drug delivery systems, efficient environmental remediation technologies, advanced catalytic applications, namely every area of technology would benefit from the ability to control self-assembly of matter at the atomic level during fabrication of nanodevices. This proposal seeks to understand the processes driving ....Understanding and controlling the processes underlying self assembly of nanostructures on surfaces. Efficient clean fuel technology, new classes of nano- and bio-materials, bio specific drug delivery systems, efficient environmental remediation technologies, advanced catalytic applications, namely every area of technology would benefit from the ability to control self-assembly of matter at the atomic level during fabrication of nanodevices. This proposal seeks to understand the processes driving self-assembly of nanomaterials and how to control these processes.Read moreRead less
Learning to predict polymorphism through simulation of nucleation and nanoparticle evolution. Many substances are capable of exhibiting a myriad of different structures despite having the same composition. This behaviour can have a significant impact on the production of new pharmaceuticals, since the sudden appearance of a new form can lead to instant withdrawal of the drug. By understanding how different forms grow, rather than focusing on just the stability of the product, this research will ....Learning to predict polymorphism through simulation of nucleation and nanoparticle evolution. Many substances are capable of exhibiting a myriad of different structures despite having the same composition. This behaviour can have a significant impact on the production of new pharmaceuticals, since the sudden appearance of a new form can lead to instant withdrawal of the drug. By understanding how different forms grow, rather than focusing on just the stability of the product, this research will lead to more reliable prediction of how pharmaceutical molecules might assemble. The same technology will potentially have impacts in many areas of nanoscience through improvements in efficiency, including the production of minerals, desalination and undersea gas recovery.Read moreRead less
Unique Chemistry from Radioactive Decay in the Solid-State. Australia is an important member of the international nuclear fuel cycle. It holds one-third of the world's uranium reserves and is a major player in the development of technology for immobilizing radioactive waste. We will use computer simulation to answer a very important question which is extremely difficult to study experimentally: How does radioactive decay inside a solid change the chemistry of the material over time? Not only wil ....Unique Chemistry from Radioactive Decay in the Solid-State. Australia is an important member of the international nuclear fuel cycle. It holds one-third of the world's uranium reserves and is a major player in the development of technology for immobilizing radioactive waste. We will use computer simulation to answer a very important question which is extremely difficult to study experimentally: How does radioactive decay inside a solid change the chemistry of the material over time? Not only will our study improve nuclear waste storage, it will also reveal how in-situ chemical change creates new kinds of solids which cannot be made by conventional means. These solids can exhibit unusual and useful behaviour; this project provides the first investigation of this unexplored technological niche.Read moreRead less