Optimization of 3D controlled ELM-free state with recovered global confinement for KSTAR with n = 1 resonant magnetic field perturbation

S.K. Kim; Egemen Kolemen; Y. In; Ricardo Shousha; S.M. Yang; A. Nelson; Chanyoung Lee; S.H. Hahn; J. H. Lee; R. Nazikian; Y.M. Jeon; Yong-Su Na; Jong-Kyu Park; J. Wai; Jaewook Kim; N.C. Logan

doi:10.1088/1741-4326/ac4369

Optimization of 3D controlled ELM-free state with recovered global confinement for KSTAR with n = 1 resonant magnetic field perturbation

S.K. Kim(Princeton University), Egemen Kolemen(Princeton University), Y. In(Ulsan National Institute of Science and Technology), Ricardo Shousha(Princeton Plasma Physics Laboratory), S.M. Yang(Princeton Plasma Physics Laboratory), A. Nelson(Columbia University), Chanyoung Lee(Seoul National University), S.H. Hahn(Korea Institute of Fusion Energy), J. H. Lee(Korea Institute of Fusion Energy), R. Nazikian(General Atomics (United States)), Y.M. Jeon(Korea Institute of Fusion Energy), Yong-Su Na(Seoul National University), Jong-Kyu Park(Princeton Plasma Physics Laboratory), J. Wai(Princeton University), Jaewook Kim(Korea Institute of Fusion Energy), N.C. Logan(Princeton Plasma Physics Laboratory)

Nuclear Fusion

December 15, 2021

10.1088/1741-4326/ac4369

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Optimization of 3D controlled ELM-free state with recovered global confinement for KSTAR with n = 1 resonant magnetic field perturbation

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