@article{oai:nifs-repository.repo.nii.ac.jp:00010828,
 author = {Okamoto,  M. and Tomita,  H. and WATANABE,  Kiyomasa and SATO,  Masahiko and TAKEMURA,  Yuki and TAKEMURA, Yuuki and SAKAKIBARA,  Satoru and IDA,  Katsumi and YOSHINUMA,  Mikiro and YOSHINUMA,  Mikirou and LHD, Experiment Group},
 issue = {4},
 journal = {Nuclear Fusion},
 month = {Mar},
 note = {To investigate the driving mechanism of the locked-mode-like instability observed in the large helical device, we reconstruct the magnetohydrodynamic (MHD) equilibria consistent with the measurement and identify a dominant MHD instability in the precursor phase based on linear MHD analyses. From the dependence of the linear growth rate on the magnetic Reynolds number, the radial mode structure of the electrostatic potential fluctuation and other indices, the ideal interchange mode is found to be dominant. Moreover, it is found that the Mercier parameter, DI, becomes much larger than 0.3 during the phase, while the precursor has constant frequency and fluctuation amplitude. Therefore, DI ≫ 0.3 is a good index of the on-set condition of the minor collapse itself. It is also found that the achievement of DI ≫ 0.3 is due to the movement of the resonant surface to the inner plasma region, which corresponds to the larger pressure gradient region.},
 title = {Linear MHD analyses of locked-mode-like instabilities in LHD},
 volume = {61},
 year = {2021}
}