Inter-ELM evolution of the edge current density in JET-ILW type i ELMy H-mode plasmas

JET Contributors, L. Horvath (Corresponding author), C.F. Maggi, F.J. Casson, V. Parail, L. Frassinetti, F. Koechl, S. Saarelma, M.G. Dunne, K.J. Gibson, M. Beckers, M. Beurskens, J. Boom, J. Citrin, M. De Bock, E. Delabie, T. Donné, G. T.A. Huijsmans, P. Huynh, F. JaulmesA. Kappatou, M. Kempenaars, M. Schneider, A.C.C. Sips, G.J. van Rooij

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6 Citaten (Scopus)

Samenvatting

Recent studies (Maggi et al 2015 Nucl. Fusion 55 113031; Maggi et al 2017 Nucl. Fusion 57 116012) have shown that on JET with the Be/W ITER-like wall (JET-ILW) in high β discharges with high D2 gas rates, the inter-ELM temperature pedestal growth is saturated half way through the ELM cycle, leading to plasmas with reduced confinement, and that the linear MHD stability of these pedestals is inconsistent with the peeling-ballooning paradigm (Snyder et al 2002 Phys. Plasmas 9 2037-43; Wilson et al 2002 Phys. Plasmas 9 1277-86). In this paper, the inter-ELM evolution of the edge current density is investigated in a wide range of type I ELMy H-modes on JET-ILW. It is found that in discharges at a low gas rate, the peak edge bootstrap current continuously increases until the ELM crashes, while it saturates during the ELM cycle at high gas rates. The effect of current diffusion on the build-up of the edge current inter-ELM is assessed by simulating the Ohmic current contribution with the JETTO transport code. The simulations indicate that current diffusion contributes little to the time evolution of the total edge current in the second half of the ELM cycle and the total current is dominated by the bootstrap current. Therefore, current diffusion does not explain why JET-ILW type I ELMy pedestals at a high gas rate and high β N are found to be stable to peeling-ballooning modes.

Originele taal-2Engels
Artikelnummer085003
TijdschriftPlasma Physics and Controlled Fusion
Volume60
Nummer van het tijdschrift8
DOI's
StatusGepubliceerd - aug. 2018
Extern gepubliceerdJa

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