Plasma-soft tissue interactions: advancing a new era of plasma technologies. This project aims to develop the prerequisite knowledge to underpin new plasma technologies. Specifically, the project plans to provide new insight into the interaction between ionised gas plasma jets and biological soft tissue. It plans to use advanced analytical techniques and modelling simulations to investigate the physics of the plasma jet and processes occurring at the jet–tissue interface. It also plans to use (b ....Plasma-soft tissue interactions: advancing a new era of plasma technologies. This project aims to develop the prerequisite knowledge to underpin new plasma technologies. Specifically, the project plans to provide new insight into the interaction between ionised gas plasma jets and biological soft tissue. It plans to use advanced analytical techniques and modelling simulations to investigate the physics of the plasma jet and processes occurring at the jet–tissue interface. It also plans to use (bio)engineered tissue targets, chemical, biological and cellular assays to probe the transport and effects of plasma reactive species deep within tissue. This new knowledge would enable the development of new plasma sources and protocols for applications in health, medicine, biotechnology and manufacturing.Read moreRead less
Positrons in biosystems. This project aims to improve our understanding of the damage processes in Positron Emission Tomography (PET). PET is a widely used medical imaging technique, but there are gaps in our understanding of the underlying interactions, in particular in the case of the radiation damage induced during the process. By using new models incorporating accurate descriptions of interactions processes, verified by experimental measurement, this project will develop a new model of posit ....Positrons in biosystems. This project aims to improve our understanding of the damage processes in Positron Emission Tomography (PET). PET is a widely used medical imaging technique, but there are gaps in our understanding of the underlying interactions, in particular in the case of the radiation damage induced during the process. By using new models incorporating accurate descriptions of interactions processes, verified by experimental measurement, this project will develop a new model of positron transport in PET. The project will allow validation of predictions from the model by undertaking experiments in liquid water.Read moreRead less
Investigation of three dimensional terahertz computed tomography for biomedical applications. Terahertz (T-ray) imaging is an exciting newly emerging technology that can perform safe, non-invasive, imaging and chemical sensing at the same time. This research aims to achieve an advance in terahertz imaging by using advanced methods that will enhance our ability to achieve accurate detection of diseased tissue in vivo. Socio-economic benefits to Australia include: (i) contributions to terahertz sy ....Investigation of three dimensional terahertz computed tomography for biomedical applications. Terahertz (T-ray) imaging is an exciting newly emerging technology that can perform safe, non-invasive, imaging and chemical sensing at the same time. This research aims to achieve an advance in terahertz imaging by using advanced methods that will enhance our ability to achieve accurate detection of diseased tissue in vivo. Socio-economic benefits to Australia include: (i) contributions to terahertz systems, enhancing Australia's reputation for cutting-edge research; (ii) international collaboration will be strengthened; (iii) results will potentially lead to commercialisation opportunities; (iv) the outcomes will ultimately impact on improving terahertz imaging in quality control, medical diagnosis, and detection for national security.Read moreRead less