论文信息 - Impact of fast vertical and radial plasma movement on type-I ELMs in ASDEX upgrade

Impact of fast vertical and radial plasma movement on type-I ELMs in ASDEX upgrade

For the ITER project it is clear that steps have to be taken in order to avoid or mitigate type-I ELMs when operating in the standard H-mode scenario. Otherwise, divertor power loads induced by intrinsic ELMs will result in an intolerably short divertor life time. Amongst others, “magnetic triggering” based on a fast vertical movement of the plasma column has proven its ability to achieve ELM frequency control and hence mitigation by locking the ELM frequency to the imposed motion. Here, we report on an attempt to widen this approach by applying a cyclic radial plasma shift. Although motional cycle amplitudes sufficient for ELM frequency locking were achieved even easier than in the vertical case, no ELM control was established for the radial case. Analysis of this different behaviour can allow for better insight into underlying ELM release mechanisms and might potentially be a useful tool for mapping out ELM stability boundaries.

[1] A. Loarte,et al. Assessment of erosion of the ITER divertor targets during type I ELMs , 2003 .

[2] Martin Jakobi,et al. ELM frequency control by continuous small pellet injection in ASDEX upgrade , 2003 .

[3] V. Riccardo,et al. Disruption heat loads on the JET MkIIGB divertor , 2002 .

[4] Jeffrey H. Harris,et al. Edge localized mode control with an edge resonant magnetic perturbation , 2005 .

[5] W. Treutterer,et al. Chapter 3: Plasma Control in ASDEX Upgrade , 2003 .

[6] K. Behler,et al. ASDEX upgrade MHD equilibria reconstruction on distributed workstations , 2000 .

[7] J. B. Lister,et al. Magnetic triggering of ELMs in TCV , 2003 .

[8] A. Herrmann,et al. Overview on stationary and transient divertor heat loads , 2002 .

[9] R. Neu,et al. Tungsten: an option for divertor and main chamber plasma facing components in future fusion devices , 2005 .