Left-handed metamaterials and negative refraction. This project will establish and support the first team in Australia working in the field of left-handed metamaterials, artificial materials in which waves behave in a unique and counter-intuitive way. The project will promote this new field, enhance its rapid development, and facilitate emerging novel technologies in Australia. It will also lead to close international collaborations with active theoretical and experimental groups, and bring impo ....Left-handed metamaterials and negative refraction. This project will establish and support the first team in Australia working in the field of left-handed metamaterials, artificial materials in which waves behave in a unique and counter-intuitive way. The project will promote this new field, enhance its rapid development, and facilitate emerging novel technologies in Australia. It will also lead to close international collaborations with active theoretical and experimental groups, and bring important expertise to Australia. We believe our initial efforts of purely fundamental nature and extensive collaboration with the overseas groups will have a significant impact on the development of this field and related novel technologies in Australia, attracting strong interest from industry.Read moreRead less
Engineering and control of metamaterials with negative refraction. This project will extend significantly the research activity on metamaterials in Australia, promoting this new field and aiming to solve high priority problems and paving the way to creation of practical sub-wavelength devices. This project is therefore of national benefit for its advances in critical fundamental research and for potential applications in a large number of engineering tasks in microwave and optical devices. The p ....Engineering and control of metamaterials with negative refraction. This project will extend significantly the research activity on metamaterials in Australia, promoting this new field and aiming to solve high priority problems and paving the way to creation of practical sub-wavelength devices. This project is therefore of national benefit for its advances in critical fundamental research and for potential applications in a large number of engineering tasks in microwave and optical devices. The project will initialize collaboration with world leading experts in the area, bringing important expertise to Australia. It will provide a greater acceptance of Australia as a major world player in fundamental research.Read moreRead less
Nonlinear metamaterials and transformation optics. This research program will bring Australia to the forefront of international research in the exciting area of nonlinear metamaterials. It will provide high-level training for students in breakthrough science directions, and contribute to the uptake of frontier technologies by Australian industries for successful operation in a competitive global environment. This project will introduce and demonstrate novel concepts for dynamically controlling a ....Nonlinear metamaterials and transformation optics. This research program will bring Australia to the forefront of international research in the exciting area of nonlinear metamaterials. It will provide high-level training for students in breakthrough science directions, and contribute to the uptake of frontier technologies by Australian industries for successful operation in a competitive global environment. This project will introduce and demonstrate novel concepts for dynamically controlling and manipulating the properties of new type of materials. This research should bridge a gap between the study of metamaterials as a theoretical curiosity and their advanced applications. Our developments will underpin future developments in imaging systems and security. Read moreRead less