@misc{oai:repo.qst.go.jp:00071197,
 author = {Iwata, Yoshiyuki and Noda, Kouji and Shirai, Toshiyuki and Furukawa, Takuji and Fujita, Takashi and Satou, Shinji and Mori, Shinichiro and Mizushima, Kota and Hara, Yousuke and Itano, Akifumi and et.al and 岩田 佳之 and 野田 耕司 and 白井 敏之 and 古川 卓司 and 藤田 敬 and 佐藤 眞二 and 森 慎一郎 and 水島 康太 and 原 洋介 and 板野 明史},
 month = {Jul},
 note = {Combined-function superconducting magnets are designed for a heavy-ion rotating-gantry. Superconducting coils of these magnets have surface winding coil structure. To minimize a sagitta, the superconducting magnets as well as their coils have a curved shape. The ten superconducting magnets are installed on the rotating gantry. With the superconducting magnets, the rotating gantry can transport carbon ions having 430 MeV/u to a patient with irradiation angles of over (+-)180 degrees, and further is capable of performing three-dimensional raster-scanning irradiation. Since the superconducting magnets would be rotated by (+-)180 degrees, compact cryocoolers are employed for cooling of the superconducting coil. Because the coil has quadrupole and dipole layers, the superconducting magnets can provide both quadrupole and dipole magnetic field. Having employed the combined-function superconducting magnets, we could design the compact rotating gantry, while keeping a large scan size at the isocenter; the length and the radius of the gantry would be approximately 13m and 5.5m, respectively, which are comparable to those for the existing proton gantries. In this paper, we report the design of the superconducting magnets as well as results of some tests., International Conference on Magnet Technology　(MT-23)},
 title = {Development of curved combined-function superconducting magnets for a heavy-ion rotating-gantry},
 year = {2013}
}