Influence of rotation on the (m, n) = (3, 2) neoclassical tearing mode threshold in the ASDEX Upgrade

S Fietz,L Barrera,M Maraschek,H Zohm,M Reich,R M Mcdermott

doi:10.1088/0741-3335/55/8/085010

Influence of rotation on the (m, n) = (3, 2) neoclassical tearing mode threshold in the ASDEX Upgrade

S Fietz, L Barrera + Show 4 more

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https://doi.org/10.1088/0741-3335/55/8/085010

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Journal: Plasma Physics and Controlled Fusion	Publication Date: Jun 5, 2013
Citations: 22	License type: iop-standard

Affiliation: Max Planck Institute for Plasma Physics, Max Planck Society

#Neoclassical Tearing Mode #Neoclassical Tearing Mode Onset #ASDEX Upgrade #Rotation Gradient #Neoclassical Tearing Mode Stability #Differential Rotation #Trigger Mechanisms #Tearing Mode Stability #Counter-current Rotation #Positive Gradient

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The influence of rotation on the (m, n) = (3, 2) neoclassical tearing mode onset and the marginal point at the ASDEX Upgrade is investigated. In this context, the different trigger mechanisms are identified and the influence of not only the rotation but also the rotation gradient and the differential rotation between the resonant and the triggering surface on the neoclassical tearing mode (NTM) stability is analysed. The existence of an upper NTM onset threshold can be observed in correlation with the rotation normalized to the Alfvén velocity. It can also clearly be verified that at the ASDEX Upgrade the NTM onset threshold increases with co- and counter-current directed rotation and also with positive and negative rotation gradient.

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Influence of rotation on the (m, n) = (3, 2) neoclassical tearing mode threshold in the ASDEX Upgrade