The Origin and Evolution of Cosmic Magnetism. This research will significantly advance our understanding of structure and evolution in the Universe, in keeping with Australia's outstanding track record of astronomical discovery. This program will also train students and build research capacity in the frontier area of X-ray astronomy, in which Australia currently has limited expertise. The instrumentation and techniques to be developed will lead to innovative transfers of technology to fields su ....The Origin and Evolution of Cosmic Magnetism. This research will significantly advance our understanding of structure and evolution in the Universe, in keeping with Australia's outstanding track record of astronomical discovery. This program will also train students and build research capacity in the frontier area of X-ray astronomy, in which Australia currently has limited expertise. The instrumentation and techniques to be developed will lead to innovative transfers of technology to fields such as telecommunications and medical imaging. These new facilities will also serve as vital stepping stones to the Square Kilometre Array, a billion-dollar international project which promises enormous economic, engineering and scientific opportunities for Australia.Read moreRead less
Enabling Technologies for Motion Corrected Positron Emission Tomography (PET) of Unanaesthetized Laboratory Animals. Small animal molecular imaging is a powerful tool in biological research and drug discovery. Anaesthesia is routinely used to avoid motion distortion, but can profoundly alter the biological process studied. This research will enable quantitative imaging of neurobiological phenomena in awake laboratory animals. It will create new opportunities for Australian basic researchers to ....Enabling Technologies for Motion Corrected Positron Emission Tomography (PET) of Unanaesthetized Laboratory Animals. Small animal molecular imaging is a powerful tool in biological research and drug discovery. Anaesthesia is routinely used to avoid motion distortion, but can profoundly alter the biological process studied. This research will enable quantitative imaging of neurobiological phenomena in awake laboratory animals. It will create new opportunities for Australian basic researchers to use innovative technology with expected high economic potential, and benefit small biotech companies by facilitating pre-clinical and clinical development of new pharmaceuticals. The new motion tracking and image reconstruction technologies developed will strengthen Australia's leading position in engineering and biomedical systems development.Read moreRead less