Physics comparison and modeling of the JET and JT-60U core and edge; Towards JT-60SA predictions

JT-60SA予測に向けたJETとJT-60Uの炉心と周辺の物理比較とモデリング

Garcia, J.*; 林 伸彦; Baiocchi, B.*; Citrin, J.*; Giruzzi, G.*; 本多 充; 井手 俊介; Maget, P.*; 成田 絵美*; Schneider, M.*; 浦野 創; JT-60チーム; JET-EFDA Contributors*; Contributors of the EU-ITM ITER Scenario Modelling Group*

Garcia, J.*; Hayashi, Nobuhiko; Baiocchi, B.*; Citrin, J.*; Giruzzi, G.*; Honda, Mitsuru; Ide, Shunsuke; Maget, P.*; Narita, Emi*; Schneider, M.*; Urano, Hajime; JT-60 Team; JET-EFDA Contributors*; Contributors of the EU-ITM ITER Scenario Modelling Group*

An extensive exercise of physics analysis and modeling has been undertaken for the typical operational regimes of the tokamak devices JET and JT-60U with the aim of extrapolating present day experiments to JT-60SA, which share characteristics with both tokamaks. A series of representative discharges of two operational scenarios, H-mode and hybrid have been used for this purpose. Predictive simulations of core turbulence, particle transport, current diffusion and pedestal pressure have been carried out with different combination of models. The ability of the models for reproducing the experimental data is analyzed and scenario calculations for JT-60SA are performed following an optimum simulation framework.