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24th IAEA Fusion Energy Conference - IAEA CN-197

8–13 Oct 2012
US/Pacific timezone

EX/3-3: ELM Control in Application of Non-Axisymmetric Magnetic Perturbations in KSTAR

10 Oct 2012, 11:45
20m
Indigo Ball Room

Indigo Ball Room
Oral Presentation EXS - Magnetic Confinement Experiments: Stability Pedestal Stability and Control I

Speaker

Mr Young Mu Jeon (Republic of Korea)

Description

In 2011 KSTAR campaign, we successfully demonstrated an ELM suppression by applying small non-axisymmetric magnetic perturbations, which is the first achievement by using n=1 magnetic perturbations (MPs) [1] while DIII-D did by using n=3 MPs [2]. The ELM-suppressed MP discharges show several unique features such as two step ELM responses (intensification and then suppression) and a gradual increase of density in the ELM-suppressed phase. Also, there were several interesting phenomena caused by the applied MPs found; (1) A saturation of Te pedestal evolution suggesting an enhanced electron thermal transport in the pedestal, (2) an abrupt change of floating potential on divertor plate depending on the applied magnetic spectra suggesting a distinctive change of pedestal particle transport, and (3) a characteristic broadband change of magnetic fluctuations depending on the magnetic spectra showing a correlation with the edge Te evolution. Also it was validated that the ELMs can be intensified (increased size and reduced frequency) by applying a particular n=1 MP, which is another important ELM response for further understanding of ELM-MP physics mechanism. Furthermore a variety of ELM responses to different magnetic spectra has been observed such as a strong mitigation and a direct H/L back-transition by n=1 MPs, and even a triggering by n=2 MP. It reveals out the importance of understanding the underlying ELM-RMP physics mechanism and of optimizing the magnetic spectra on ELM control. [1] Y.M. Jeon, et al., submitted to Phys. Rev. Lett. (2011) [2] T.E. Evans, et al., Phys. Rev. Lett. 92, 235003 (2004)

Country or International Organization of Primary Author

Repuplic of Korea

Collaboration (if applicable, e.g., International Tokamak Physics Activities)

Princeton Plasma Physics Laboratory

Primary author

Mr Young Mu Jeon (Republic of Korea)

Co-authors

Prof. GunSu Yun (Pohang University of Science and Technology) Dr Hakkeun Kim (National Fusion Research Institute) Dr Hyung Yeol Yang (National Fusion Researh Institute, Daejon, Korea) Dr Jong-Gu Kwak (National Fusion Research Institute) Dr Jong-Kyu Park (Princeton Plasma Physics Laboratory) Dr Jun Gyo Bak (National Fusion Research Institute) Mr KunSu Lee (National Fusion Research Institute) Dr Kyu-Dong Lee (National Fusion Research Institute) Dr Sang Gon Lee (National Fusion Research Institute) Dr Siwoo Yoon (National Fusion Research Institute) Dr Wonha Ko (National Fusion Research Institute) Dr WoongChae Kim (National Fusion Research Institute) Dr Yeong-Kook Oh (National Fusion Research Institute) Dr YongUn Nam (National Fusion Research Institute)

Presentation materials

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