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W2035943690 abstract "Recent progress in understanding of disruptions and in developing methods to avoid disruption damage is presented. Nearly complete mitigation of conducted heat loads has been achieved with high-Z gas jet shutdown. The resulting local radiation heat flash melting in the main chamber might be a concern in ITER, especially with beryllium walls. During the current quench, significant vessel forces can occur due to halo currents Ihalo; however, these are found to fall reliably below a boundary of (halo current fraction times halo current peaking factor) <0.7 both experimentally and numerically. Numerical simulations indicate that runaway electrons (REs) could cause serious damage to hard-to reach components in ITER, making their suppression a high priority. During the current quench, less than 20% of the density required for collisional suppression of REs appears to have been achieved. Collisional suppression of REs may have been achieved, however, in full-current RE beams with gas injection." @default.
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W2035943690 date "2011-08-01" @default.
W2035943690 modified "2023-09-25" @default.
W2035943690 title "Plasma–surface interactions during tokamak disruptions and rapid shutdowns" @default.
W2035943690 cites W1966612434 @default.
W2035943690 cites W1968473837 @default.
W2035943690 cites W1974479640 @default.
W2035943690 cites W1985228598 @default.
W2035943690 cites W1985769162 @default.
W2035943690 cites W1986388152 @default.
W2035943690 cites W1986701125 @default.
W2035943690 cites W1990387842 @default.
W2035943690 cites W1991634605 @default.
W2035943690 cites W1994379351 @default.
W2035943690 cites W1994641782 @default.
W2035943690 cites W1994661079 @default.
W2035943690 cites W1996392041 @default.
W2035943690 cites W1997245195 @default.
W2035943690 cites W1999663470 @default.
W2035943690 cites W2005393176 @default.
W2035943690 cites W2007290919 @default.
W2035943690 cites W2008603076 @default.
W2035943690 cites W2011354199 @default.
W2035943690 cites W2012377896 @default.
W2035943690 cites W2017407217 @default.
W2035943690 cites W2017473328 @default.
W2035943690 cites W2018859228 @default.
W2035943690 cites W2019269346 @default.
W2035943690 cites W2020793970 @default.
W2035943690 cites W2023027658 @default.
W2035943690 cites W2023813879 @default.
W2035943690 cites W2025456662 @default.
W2035943690 cites W2027198475 @default.
W2035943690 cites W2030522532 @default.
W2035943690 cites W2031296443 @default.
W2035943690 cites W2032289784 @default.
W2035943690 cites W2034518617 @default.
W2035943690 cites W2035039371 @default.
W2035943690 cites W2038993630 @default.
W2035943690 cites W2046825839 @default.
W2035943690 cites W2049711117 @default.
W2035943690 cites W2051345062 @default.
W2035943690 cites W2062904204 @default.
W2035943690 cites W2067040924 @default.
W2035943690 cites W2069450705 @default.
W2035943690 cites W2069887425 @default.
W2035943690 cites W2073974331 @default.
W2035943690 cites W2074651083 @default.
W2035943690 cites W2079022249 @default.
W2035943690 cites W2080732388 @default.
W2035943690 cites W2091060166 @default.
W2035943690 cites W2093808870 @default.
W2035943690 cites W2110369491 @default.
W2035943690 cites W2111909928 @default.
W2035943690 cites W2135322186 @default.
W2035943690 cites W2140021607 @default.
W2035943690 cites W2145543370 @default.
W2035943690 cites W2151219715 @default.
W2035943690 cites W2167699253 @default.
W2035943690 cites W4210673830 @default.
W2035943690 cites W4253496964 @default.
W2035943690 doi "https://doi.org/10.1016/j.jnucmat.2010.10.009" @default.
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