@article{oai:repo.qst.go.jp:00049204,
 author = {星野, 一生 and 本間, 裕貴 and 徳永, 晋介 and 清水, 勝宏 and 本間 裕貴 and 徳永 晋介},
 journal = {Contributions to Plasma Physics},
 month = {Apr},
 note = {The effects of multi-impurity transport are important for the divertor plasma performance.  To simulate the radiative divertor plasma precisely, we have extended
the integrated divertor code, SONIC, to the simulation with multi-impurity
species. For SONIC extension, a new integrated modelling framework using
the multiple-program multiple-data approach and message passing interface data
exchange has been developed. In the framework, two impurities and more can
be treated simultaneously with several Monte Carlo kinetic impurity codes. The
extended SONIC code has been applied to analyse the JT-60SA radiative divertor
plasma. The SONIC simulation including multi-impurity transport demonstrates
that the radiative divertor plasma scenario compatible with the steady-state high-_x120573_
plasma can be achieved.},
 title = {Multi-impurity divertor simulation using a Monte Carlo kinetic impurity transport model},
 volume = {58},
 year = {2018}
}