@inproceedings{oai:repo.qst.go.jp:00081415,
 author = {阿部, 康志 and 岩田, 佳之 and 水島, 康太 and 浦田, 昌身 and 野田, 悦夫 and 白井, 敏之 and 藤本, 哲也 and Abe, Yasushi and Iwata, Yoshiyuki and Mizushima, Kota and Urata, Masami and Noda, Etsuo and Shirai, Toshiyuki},
 book = {2020年第17回日本加速器学会年会プロシーディングス},
 month = {Sep},
 note = {A facility for heavy-ion radiotherapy is very large and the introduction cost is also high. National Institutes for Quantum and radiological Science and Technology (QST) has developing a next generation facility for heavy-ion radiotherapy, it is called quantum scalpel. The cost and size of devices are reduced by downsizing a synchrotron using superconducting technology and an injector using laser-accelerated technology. To realize the quantum scalpel, however, a short high energy beam transport system (HEBT) and a compact superconducting rotating-gantry are needed as well. In this study, we designed the optics of HEBT and the rotating-gantry for quantum scalpel. Optical conditions at an isocenter must be
matched for all beam energy used in heavy-ion therapy. We designed the optics of HEBT and the rotating-gantry in case of two energy conditions (430 MeV/u and 56 MeV/u), and device layout to reduce a footprint. We report results of the
optics design of HEBT and the rotating-gantry for the quantum scalpel.},
 pages = {698--701},
 title = {量子メスに向けた高エネルギービーム輸送系及び回転ガントリーの光学設計},
 year = {2020}
}