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Probing anti-ferroelectric to ferroelectric structural phase transitions: towards high power energy transformation devices. Materials which can be rapidly switched from anti-ferroelectric to ferroelectric states exhibit a wide range of exploitable properties. This project will identify the factors enabling such materials to respond to applied electric fields and mechanical stresses and use them to enhance the ability of industry to develop new advanced materials.
Mathematical model reduction for complex networks. This project aims to develop new mathematical methodology to describe the collective behaviour of large networks of oscillators with parameters called collective coordinates. This will allow for the quantitative description of finite-size networks as well as chaotic dynamics, which are both out of reach for current model reduction methods. The project will apply methodology to understand the causes of, and ways to prevent, glitches and failure i ....Mathematical model reduction for complex networks. This project aims to develop new mathematical methodology to describe the collective behaviour of large networks of oscillators with parameters called collective coordinates. This will allow for the quantitative description of finite-size networks as well as chaotic dynamics, which are both out of reach for current model reduction methods. The project will apply methodology to understand the causes of, and ways to prevent, glitches and failure in the emerging modern decentralised power grids. This will develop a framework to address this question, tailored to deal with the hitherto uncharted case of finite-size networks.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100223
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
Advanced in-situ electron microscope facility for research in alloys, nanomaterials, functional materials, magnetic materials and minerals. This advanced in situ electron microscope facility will provide Australia with a new and critical capability to understand and design technologically important materials. It will enable advances in the areas of energy, environment, transport, construction and mining.