@inproceedings{oai:repo.qst.go.jp:00079596,
 author = {KITAZAWA and Hatae, Takaki and ishikawa and Oikawa, Toshihiro and Imazawa, Ryota and Yatsuka, Eiichi and Ogawa, Hiroaki and Maruyama, Toshiyuki and Ushiki, Tomohiko and Tanaka, Suguru and Sugie, Tatsuo and Murakami, Hidetoshi and Yokozuka, Tomohiro and Kitazawa, Shinichi and Hatae, Takaki and Ishikawa, Masao and Oikawa, Toshihiro and Imazawa, Ryota and Yatsuka, Eiichi and Ogawa, Hiroaki and Maruyama, Toshiyuki and Ushiki, Tomohiko and Tanaka, Suguru and Sugie, Tatsuo and Murakami, Hidetoshi and Yokozuka, Tomohiro},
 book = {QST Takasaki Annual Report 2018},
 month = {Mar},
 note = {JADA (ITER Japan Domestic Agency) are developing to procure five diagnostic systems, microfission chamber (MFC), poloidal polarimeter (PoPola), Edge Thomson Scattering (ETS), divertor impurity monitor (DIM) and divertor infrared thermography (IRTh). The reliability in the ITER radiation conditions of relevant equipment to be installed in the vacuum vessel, in the interspaces (IS) between the vacuum boundary and the biological shield and in the port cells (PC) outside the biological shields should be evaluated. In this study, we have launched gamma-ray irradiation experiments in QST Takasaki Advanced Radiation Research Institute from 2018.},
 publisher = {QST},
 title = {Gamma ray Irradiation Experiment for ITER Diagnostic Systems in JADA},
 year = {2020}
}