James Cayley
YOU?
Author Swipe
View article: Radiation Effects in Electret Organic Thin‐Film Transistors Due to High Flux and High Dose X‐Ray Irradiation
Radiation Effects in Electret Organic Thin‐Film Transistors Due to High Flux and High Dose X‐Ray Irradiation Open
Organic electronic devices offer lightweight, flexible, and low‐cost alternatives to conventional semiconductor technologies, with growing interest in dosimetry applications. An organic thin‐film transistor (OTFT) with a polymer electret i…
View article: A procedure for accurate dose measurement in radiotherapy research at millimetre-sized synchrotron beams
A procedure for accurate dose measurement in radiotherapy research at millimetre-sized synchrotron beams Open
Objective. Synchrotron-based spatially fractionated radiotherapy and ultra-high dose rate (UHDR) radiotherapy have been shown to better spare healthy tissue function in comparison to conventional radiotherapy, while controlling the tumour …
View article: A canine head phantom for quality assurance in multiport microbeam radiation therapy: animal phantom fabrication and dosimetry protocol
A canine head phantom for quality assurance in multiport microbeam radiation therapy: animal phantom fabrication and dosimetry protocol Open
Objective . This study aims to develop canine radiotherapy phantoms and a dosimetry protocol for synchrotron microbeam radiation therapy (MRT). Approach . Two canine head phantoms were designed based on computed tomography (CT) image sets …
View article: Playing Hard with Si: Challenges and Opportunities for New Materials in Radiation Therapy Dosimetry
Playing Hard with Si: Challenges and Opportunities for New Materials in Radiation Therapy Dosimetry Open
The sophistication and diversity of radiation medicine modalities continue to increase significantly in both cancer imaging and cancer radiation therapy. With over 50% of cancer patients receiving some form of radiation procedure as part o…
View article: Establishing Linearity of the MOSkin Detector for Ultra-High Dose-per-Pulse, Very-High-Energy Electron Radiotherapy Using Dose-Rate-Corrected EBT-XD Film
Establishing Linearity of the MOSkin Detector for Ultra-High Dose-per-Pulse, Very-High-Energy Electron Radiotherapy Using Dose-Rate-Corrected EBT-XD Film Open
Very-high-energy electrons, coupled with ultra-high dose rates, are being explored for their potential use in radiotherapy to treat deep-seated tumours. The dose per pulse needed to achieve ultra-high dose rates far exceeds the limit of cu…
View article: Simulation and commissioning of a Faraday cup for absolute charge measurements of very high-energy electrons in-air at PEER
Simulation and commissioning of a Faraday cup for absolute charge measurements of very high-energy electrons in-air at PEER Open
The Pulsed Energetic Electrons for Research (PEER) beamline at the ANSTO Australian Synchrotron comprises a 100 MeV linac injector that is currently being developed for ultra-high dose-rate, very high-energy electron radiotherapy research.…
View article: MOSkin dosimetry for an ultra-high dose-rate, very high-energy electron irradiation environment at PEER
MOSkin dosimetry for an ultra-high dose-rate, very high-energy electron irradiation environment at PEER Open
FLASH radiotherapy, which refers to the delivery of radiation at ultra-high dose-rates (UHDRs), has been demonstrated with various forms of radiation and is the subject of intense research and development recently, including the use of ver…
View article: Design, construction, and dosimetry of 3D printed heterogeneous phantoms for synchrotron brain cancer radiation therapy quality assurance
Design, construction, and dosimetry of 3D printed heterogeneous phantoms for synchrotron brain cancer radiation therapy quality assurance Open
Objective. This study aims to design, manufacture, and test 3D printed quality assurance (QA) dosimetry phantoms for synchrotron brain cancer radiation therapy at the Australian synchrotron. Approach. Fabricated 3D printed phantoms from si…