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Localizing resonant magnetic perturbations for edge localized mode control in KSTAR

S.M. Yang, Jong-Kyu Park, N.C. Logan, Caoxiang Zhu, Qiming Hu, Y.M. Jeon, Y. In, W.H. Ko, S.K. Kim, Y.H. Lee, Y.S. Na

2020Nuclear Fusion34 citationsDOIOpen Access PDF

Abstract

An external 3D magnetic perturbation typically drives a resonant response at the rational surfaces from the core to the edge of tokamak plasmas, due to strong mode coupling and amplification. This paper presents a method to isolate the edge from core resonant fields using the ideal perturbed equilibrium code and to design an edge-localized resonant magnetic perturbation (RMP) for effective edge localized mode (ELM) control. A robust feature of the edge-localized RMP is the curtailed response to the field at the low-field-side (LFS) midplane, as opposed to typical RMPs which strongly resonate with the LFS fields. This emphasizes the importance of off-midplane coils to improve ELM control without provoking a large core response that could lead to devastating instabilities. The conceptual design of new ELM control coils based on the edge-localized RMP in KSTAR shows how this new insight can be utilized to enhance the efficiency of our ELM suppression capabilities. Simple window-pane coils matching the edge-localized resonant mode structure substantially expand in the ELM suppression window beyond the existing coil. Further optimization using the flexible optimized coils using space-curves code leads to additional enhancement in the edge-localized control.

Topics & Concepts

KSTAREdge-localized modeResonant magnetic perturbationsPhysicsTokamakEnhanced Data Rates for GSM EvolutionElectromagnetic coilPerturbation (astronomy)Magnetic fieldComputational physicsPlasmaComputer scienceDivertorNuclear physicsTelecommunicationsQuantum mechanicsMagnetic confinement fusion researchIonosphere and magnetosphere dynamicsParticle accelerators and beam dynamics
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