Radiation protection for space, aviation, and terrestrial applications: the development of novel radiation detectors and computational techniques. Personnel in space, aviation, and terrestrial applications may be exposed to potentially harmful levels of densely ionising radiation. This project will produce improved radiation detectors and computational techniques, addressing needs in the prediction and assessment of equivalent dose in these applications. The "preventative healthcare" priority go ....Radiation protection for space, aviation, and terrestrial applications: the development of novel radiation detectors and computational techniques. Personnel in space, aviation, and terrestrial applications may be exposed to potentially harmful levels of densely ionising radiation. This project will produce improved radiation detectors and computational techniques, addressing needs in the prediction and assessment of equivalent dose in these applications. The "preventative healthcare" priority goal of the National Research Priority "Promoting and Maintaining Good Health" will be addressed, serving to reduce the risk to personnel involved in such activities. This research will also enhance Australia's international reputation in this field, stimulate local expertise, and create a critical mass of researchers in this field. Read moreRead less
Development of innovative radiation detectors and computational techniques for improving quality of life. This project will produce improved radiation detectors and advanced computational techniques, addressing needs in the prediction and assessment of the effects of radiation in homeland security, medicine, aviation and space applications. The 'preventative healthcare' priority goal of the National Research priority 'Promoting and maintaining good health' will be addressed, serving to reduce th ....Development of innovative radiation detectors and computational techniques for improving quality of life. This project will produce improved radiation detectors and advanced computational techniques, addressing needs in the prediction and assessment of the effects of radiation in homeland security, medicine, aviation and space applications. The 'preventative healthcare' priority goal of the National Research priority 'Promoting and maintaining good health' will be addressed, serving to reduce the risk to people involved in such activities. This fundamental research will also enhance Australia's international reputation in this field, stimulate local expertise and create a critical mass of researchers working in this sector.Read moreRead less
Auger-electron yields of medical radioisotopes. Large numbers of Auger electrons are emitted during the decay of many medical isotopes. Auger electrons have a short range and a strong ability to break chemical bonds. However no measurements of the number of Auger electrons per nuclear decay exist in the critical low energy regime. Calculated Auger yields are incomplete and inconsistent. Building on unique Australian expertise and instrumentation, and performing both calculations and measurements ....Auger-electron yields of medical radioisotopes. Large numbers of Auger electrons are emitted during the decay of many medical isotopes. Auger electrons have a short range and a strong ability to break chemical bonds. However no measurements of the number of Auger electrons per nuclear decay exist in the critical low energy regime. Calculated Auger yields are incomplete and inconsistent. Building on unique Australian expertise and instrumentation, and performing both calculations and measurements, his project aims to determine the number of Auger electrons per nuclear decay accurately for medical isotopes. The outcome will be accurate dose data for radioisotopes, plus essential knowledge to develop new cancer treatments based on Auger electrons, which target a fraction of a cell.Read moreRead less