@article{oai:fut.repo.nii.ac.jp:00002310,
 author = {砂川, 武義 and Glenn, Harvel and 青木, 祐太郎 and 柴岡, 龍 and 速水, 醇一 and 田口, 光正 and 長澤, 尚胤 and 畑下, 昌範/久米 恭/佐倉 俊治 and Takeyoshi, Sunagawa and Glenn, Harvel and Yutaro, Aoki and Ryu, Shibaoka and Jun-ichi, Hayami and Mitsumasa, Taguchi and Naotsugu, Nagasawa and Masanori, Hatashita/Kyo Kume/Toshiharu Sakura},
 issue = {49},
 journal = {福井工業大学研究紀要},
 month = {Dec},
 note = {Cancer treatment using radiation, which has less impact on the human body, will play an increasingly important role in Japan in the super-aged society. Therefore, in cancer treatment using radiation, visualization of radiation strength and distribution is an essential technique for accurate evaluation of dose distribution. Chemical dosimeters have been researched and developed at various research institutes, but have not been put into practical use due to issues such as chemical sensitivity, safety, cost and processing. In this laboratory, we developed a low-cost PVA-KI gel dosimeter (hereinafter PVA-KI gel) that can be manufactured at low cost using a PVA (polyvinyl alcohol) aqueous solution with a KI (potassium iodide) added component. Currently, UV-visible spectrophotometer is used for measurement of PVA-KI gel which requires expensive equipment and cannot easily provide dode distribution. In order to use PVA-KI gel that can be manufactured at low cost widely, development of a photometric measurement device specialized for PVA-KI gel is desired. In this study, we developed gel analysis software using a measuring device combining an organic EL panel and a digital camera in Visual Basic, to develop a system that can measure the absorbed dose of X-ray irradiation to PVA-KI gel.},
 pages = {93--98},
 title = {PVA-KIゲル線量計を用いた線量評価技術開発},
 year = {2019}
}