@article{oai:nifs-repository.repo.nii.ac.jp:00010581,
 author = {OGAWA,  Kunihoro and ISOBE,  Mitsutaka and Nishitani,  T. and SEKI,  Ryosuke and NUGA, Hideo and MURAKAMI,  Sadayoshi and Nakata, Motoki and PU, Neng and OSAKABE,  Masaki and JO, Jungmin and Cheon, MunSeong and KIM, Junghee and ZHONG, Guoqiang and Xiao, Min and HU, Liqun and LHD, Experiment Group},
 issue = {9},
 journal = {Plasma Physics and Controlled Fusion},
 month = {Aug},
 note = {0000-0003-4555-1837, A neutron emission rate analysis code called FBURN, based on the classical energetic ion confinement assumption with radial diffusion, is developed for the time-dependent analysis of the total neutron emission rate (Sn) in neutral beam (NB) heated deuterium plasmas. The time trend of Sn evaluated by FBURN shows good agreement with the Sn measured by the neutron flux monitor on the deuterium operation of the Large Helical Device. The dependence of Sn on line-averaged electron density (ne_avg) has a peak at ne_avg of around 2.5 × 1019 m−3 in both experiment and calculation. Here, the absolute value of Sn evaluated by calculation agrees with that obtained in experiments within a factor of two. A time trend analysis of Sn in an electron cyclotron heated plasma with a short pulse NB injection is performed. The analysis shows that the diffusion coefficient of co-going transit beam ions is 0.2 to 0.3 m2 s−1. In addition, the diffusion coefficient of helically trapped beam ions decreases from 5 to 3 m2 s−1 with the inward shift of the magnetic axis position. Time-resolved analysis of the triton burnup experiment shows that the diffusion coefficient of tritons is around 0.15 m2 s−1. It is found that the diffusion coefficients of the beam and tritons are of a similar value as obtained in JT-60U. The trend of the triton burnup ratio on the ne_avg calculated by the FBURN agrees with the experiments. The results suggest that the decrease of the triton burnup ratio with the increase of ne_avg is due to the shorter slowing down time of tritons by the decrease of the electron temperature, and the increase of the triton burnup ratio with the increase of ne_avg is due to the diffusion of tritons. Time trend analysis of Sn in the Korea Superconducting Tokamak Advanced Research and the Experimental Advanced Superconducting Tokamak plasmas with a short pulse NB injection is performed. The time trend of Sn is successfully reproduced by FBURN.},
 title = {Time dependent neutron emission rate analysis for neutral-beam-heated deuterium plasmas in a helical system and tokamaks},
 volume = {60},
 year = {2018}
}