@misc{oai:repo.qst.go.jp:00073283, author = {本多, 充 and Yoshida, Maiko and 佐竹, 真介 and 鈴木, 康浩 and Hayashi, Nobuhiko and Shinohara, Koji and Matsuyama, Akinobu and Kamiya, Kensaku and Matsunaga, Go and Ide, Shiyunsuke and Urano, Hajime and 仲田, 資季 and 本多 充 and 吉田 麻衣子 and 林 伸彦 and 篠原 孝司 and 松山 顕之 and 神谷 健作 and 松永 剛 and 井手 俊介 and 浦野 創}, month = {Jun}, note = {The integrated modeling regarding transport phenomena has progressed significantly in recent years. Toroidal momentum transport and toroidal rotation physics remain less understood than physics of either heat or particles. Developing a integrated code framework especially for toroidal rotation and the radial electric field, which is strongly linked to rotation, can shed light on their understanding and improve the validity of models through comparisons with JT-60U experiments. Toroidal rotation is mainly governed by the balance between torque sources/sinks and momentum transport. We have studied many sorts of torque sources/sinks in tokamaks, that is, NB torque, torque caused by losses and transport of fast and thermal ions due to toroidal field ripple and/or non- axisymmetric perturbed magnetic field, etc. In this talk, emphasis is on the recent development of the integrated modeling regarding rotation and the radial electric field and on the associated physics., 18th International Congress on Plasma Physics (ICPP 2016)}, title = {Physics and modeling of toroidal rotation and torque sources in JT-60U}, year = {2016} }