@article{oai:repo.qst.go.jp:00080410,
 author = {Kawchar Ahmed Patwary, Md and Kin, Tadahiro and Aoki, Katsumi and Yoshinami, Kosuke and Yamaguchi, Masaya and Watanabe, Yukinobu and Tsukada, Kazuaki and Sato, Nozomi and Asai, Masato and K Sato, Tetsuya and Hatsukawa, Yuuichi and 初川 and Yuuichi, Hatsukawa},
 issue = {2},
 journal = {Journal of Nuclear Science and Technology (TNST)},
 month = {Sep},
 note = {In the design of deuteron accelerator neutron sources, accurate nuclear data of deuteron-induced reactions are necessarily important over a wide range of incident deuteron energy from a few MeV to around 50 MeV for light nuclides, such as C and Be. Currently, however, available experimental data of double-differential thick target neutron yields (DDTTNYs) are especially insufficient. In this study, to investigate systematics of DEURACS, a theoretical model of deuteron induced reaction, we have been measured the DDTTNYs of (d,n) reactions on natC target for incident deuteron energy at 12, 20 and 30 MeV by means of the multiple-foils activation method. The neutrons were detected at emission angles of 0⁰, 10⁰, 20⁰, 30⁰ and 45⁰.  In unfolding process, we applied the GRAVEL code. The results were compared with DEURACS and showed that it can reproduce also angular distributions up to 45⁰. We found DEURACS can be used for interpolation of the lacked experimental DDTTNY in the deuteron energy range from 12 to 30 MeV for 0-45⁰ of neutron emission angles.},
 pages = {252--258},
 title = {Measurement of Double-differential Thick-target Neutron Yield of C(d,n) reaction for 12, 20 and 30-MeV},
 volume = {58},
 year = {2020}
}