New high resolution radiation dose mapping of special type polymer-gel dosimeters using mini-MRI scanner of high (4.7 Tesla) magnetic field. Gel dosimeters main advantage is dose determination in 3-dimensions. Their main limitation is low spatial-resolution. We propose fabrication of special-type gels and for the first time use the 4.7 Tesla mini-scanner for dose mapping. Increased magnetic field combined with a small aperture for field dissipation will greatly improve spatial resolution down t ....New high resolution radiation dose mapping of special type polymer-gel dosimeters using mini-MRI scanner of high (4.7 Tesla) magnetic field. Gel dosimeters main advantage is dose determination in 3-dimensions. Their main limitation is low spatial-resolution. We propose fabrication of special-type gels and for the first time use the 4.7 Tesla mini-scanner for dose mapping. Increased magnetic field combined with a small aperture for field dissipation will greatly improve spatial resolution down to micrometers (micro-dosimetry). This new technique will render gel-dosimeters suitable for applications in radiotherapy, industrial and all other radiation fields. Moreover, we will employ new parameter for dose mapping, which is expected to be more sensitive to radiation than the currently used relaxation timesRead moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454184
Funder
Australian Research Council
Funding Amount
$155,792.00
Summary
Silicon Imaging Device Construction Facility - Wirebonder. The development of state-of-the-art, high precision semiconductor imaging devices (for high energy particle physics, synchrotron science and medical imaging ) requires a significant capability in modern assembly facilities. In constructing test and 'production' modules consisting of fine-grained, multi-channel bare silicon or other semiconductor imaging devices and custom electronic chips, a high-reliability, highly flexible wire-bonding ....Silicon Imaging Device Construction Facility - Wirebonder. The development of state-of-the-art, high precision semiconductor imaging devices (for high energy particle physics, synchrotron science and medical imaging ) requires a significant capability in modern assembly facilities. In constructing test and 'production' modules consisting of fine-grained, multi-channel bare silicon or other semiconductor imaging devices and custom electronic chips, a high-reliability, highly flexible wire-bonding machine is an essential tool. The international reputation from success in several challenging projects under difficult conditions, gained by the Chief Investigators has resulted in several more projects being planned in addition to a foreseen program of device development. A modern wirebonder, to replace the existing 30 year-old machine, has become critical to maintain our leading position in this area.Read moreRead less
Advanced technologies for laser refractive surgery. People who wear glasses can now undergo laser eye-surgery to correct their focussing problems. While many can ?throw away their glasses?, the results are optimised for one viewing situation so that when people move their eyes or refocus, visual clarity is not perfect. We need precise measurements of the eye's shape under dynamic conditions to understand exactly how optical distortions (aberrations) affect clarity of sight. This project is to b ....Advanced technologies for laser refractive surgery. People who wear glasses can now undergo laser eye-surgery to correct their focussing problems. While many can ?throw away their glasses?, the results are optimised for one viewing situation so that when people move their eyes or refocus, visual clarity is not perfect. We need precise measurements of the eye's shape under dynamic conditions to understand exactly how optical distortions (aberrations) affect clarity of sight. This project is to build a laser device that incorporates a deformable mirror to investigate the interplay between aberrations and visual clarity. This new knowledge is a vital next step to improve laser eye-surgery success.Read moreRead less
Radiation detectors to better understand ion interactions. This project aims to build a Heavy Ion Therapy Research and Treatment Centre in Australia. Understanding how ions interact with matter and their radiobiological effectiveness (RBE) is important. The project will introduce an Australian detector technology platform to research ion interaction physics and their RBE. It will develop radiation detectors for ion measurement with a wide energy range, including a practical RBE quality assurance ....Radiation detectors to better understand ion interactions. This project aims to build a Heavy Ion Therapy Research and Treatment Centre in Australia. Understanding how ions interact with matter and their radiobiological effectiveness (RBE) is important. The project will introduce an Australian detector technology platform to research ion interaction physics and their RBE. It will develop radiation detectors for ion measurement with a wide energy range, including a practical RBE quality assurance tool with submillimetre spatial resolution. The proposed Australian radiation detection technology is expected to improve understanding of the scientific mechanisms underpinning the radiobiological effectiveness of heavy ion radiation.Read moreRead less
Development of Novel Two-dimensional Techniques for Magnetic Resonance In-vivo Spectroscopy. Body chemistry alters with functionality, pain, ageing and disease. These changes can be recorded by magnetic resonance (MR) spectroscopy (MRS) in vivo in a whole body MR scanner. When changes in chemistry can be recorded rapidly, and the individual species assigned, it will be possible to make a definitive diagnosis and in some cases allow the tailoring of treatment on an individual basis. This is curre ....Development of Novel Two-dimensional Techniques for Magnetic Resonance In-vivo Spectroscopy. Body chemistry alters with functionality, pain, ageing and disease. These changes can be recorded by magnetic resonance (MR) spectroscopy (MRS) in vivo in a whole body MR scanner. When changes in chemistry can be recorded rapidly, and the individual species assigned, it will be possible to make a definitive diagnosis and in some cases allow the tailoring of treatment on an individual basis. This is currently hampered by our inability to separate the composite resonances in a one dimensional MR spectrum. Research will allow two dimensional MRS to be implemented and provide detailed chemical information on human organs in vivo. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102571
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Visualising living airways: a new x-ray technique to assess Cystic Fibrosis treatments. The ability to non-invasively observe the body's inner functions at high magnification is critical in developing new medical treatments. This project will establish an x-ray technique capable of imaging subtle biological function at high magnification and apply this technique to assessing new treatments for airways affected by Cystic Fibrosis.