@article{oai:repo.qst.go.jp:00079775,
 author = {太田, 雅之 and 佐藤, 聡 and 中村, 誠 and 権, セロム and 朴, 昶虎 and 落合, 謙太郎 and 染谷, 洋二 and 春日井, 敦 and Ota, Masayuki and Sato, Satoshi and Nakamura, Makoto and Gon, Seromu and Park, ChangHo and Ochiai, Kentaro and Someya, Yoji and Kasugai, Atsushi},
 journal = {Fusion Engineering and Design},
 month = {Aug},
 note = {In the conceptual design activity of advanced fusion neutron source A-FNS, a variety of test modules for fusion DEMO reactor are planned. In these modules, progresses of design activities on Blanket Nuclear Property Test Module (BNPTM) and Diagnostic and Control Device Test Module (DCDTM) were reported. The BNPTM is a module in order to evaluate accuracies of nuclear analyses of the DEMO blanket such as tritium production rate. The influences of the cooling water and test cell wall were evaluated in order to decide its design. The DCDTM is one to achieve irradiation data of functional materials on diagnostic and control devices such as mirror and window. It was clarified from its nuclear analysis that the neutron fluence obtained in the DCDTM was enough to investigate the accumulated irradiation effects on the materials. In addition to the irradiation tests on the fusion reactor materials, various neutron applications are planned at A-FNS. One of the applications is medical isotope production. We clarified that enough amount of the medical isotope molybdenum-99 could be produced in comparison with the demand in Japan by using Radio-Isotope Production Module (RIPM). The RIPM affects little influence on the fusion reactor material irradiation tests.},
 title = {Conceptual Design of Test Modules for DEMO Blanket, Diagnostic Device, and RI Production for A-FNS},
 volume = {157},
 year = {2020}
}