@misc{oai:repo.qst.go.jp:00075879,
 author = {Hara, Yousuke and Saotome, Naoya and Furukawa, Takuji and Tansho, Ryohei and Mizushima, Kota and Saraya, Yuichi and Shirai, Toshiyuki and Hara, Yousuke and Saotome, Naoya and Furukawa, Takuji and Tansho, Ryohei and Mizushima, Kota and Saraya, Yuichi and Shirai, Toshiyuki},
 month = {May},
 note = {To make the best use of the characteristics of a carbon-ion beam and provide flexible dose delivery, three-dimensional (3D) pencil-beam scanning is an ideal irradiation technique. To suppress beam spread due to multiple scattering and nuclear reactions, we then developed a full energy scanning method. In some case such as eye treatment, the irradiation fields are very small and short range. Thus, we prepared a minimum low energy carbon-ion beam corresponding to the water-equivalent residual ranges less than 2 mm. In our presentation, we introduce the experimental verification for low energy carbon-ion beam., 13th European Conference on Accelerators in Applied Research and Technology (ECAART13)},
 title = {Experimental verification of small field with low energy carbon-ion scanning in NIRS-HIMAC},
 year = {2019}
}