@article{oai:nifs-repository.repo.nii.ac.jp:00010563,
 author = {IDA,  Katsumi and YOSHINUMA,  Mikiro and TANAKA,  Kenji and Nakata, Motoki and Kobayashi, Tatsuya and Fujiwara, Yutaka and SAKAMOTO,  Ryuichi and MASUZAKI,  Suguru and LHD, Experiment Group},
 issue = {1},
 journal = {Nuclear Fusion},
 month = {Nov},
 note = {0000-0002-0585-4561, Characteristics of plasma parameters and turbulence in the isotope-mixing and the non-mixing states in hydrogen-deuterium mixture plasmas in the large helical device are discussed. The isotope mixing state is characterized by the uniform isotope ratio profile regardless of the location of the particle source of each species in the isotope mixture plasma. The isotope non-mixing state is identified by the non-uniform isotope ratio profile measured with bulk charge exchange spectroscopy when the beam fueling isotope species differs from the recycling isotope species. The effect of collisionality, $T_e/T_i$ ratio, sign of density gradient on transition between isotope mixing and non-mixing is discussed. The plasma parameters preferable for the non-mixing state are found to be lower collisionality, higher $T_e/T_i$, and negative or zero density gradient (peaked or flat density profile). The time scale of transition from non-mixing to mixing is evaluated by the hydrogen and deuterium pellet injection near the plasma edge and is found to be less than 5 ms, which is much shorter than the particle confinement time. The strong correlation between isotope mixing and turbulence characteristics is observed. This strong correlation suggests the change in turbulence is a strong candidate for the mechanism causing the transition between uniform and non-uniform isotope density ratio profiles.},
 title = {Characteristics of plasma parameters and turbulence in the isotope-mixing and the non-mixing states in hydrogen–deuterium mixture plasmas in the large helical device},
 volume = {61},
 year = {2020}
}