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|Abstract:||The H-mode transport barrier allows confinement of roughly twice as much energy as in an L-mode plasma. Termination of H-mode necessarily requires release of this energy, and the timescale of that release is of critical importance for the lifetimes of plasma facing components in next step tokamaks such as ITER. H-L transition sequences in modern tokamaks often begin with a transient outburst which appears to be superficially similar to and has sometimes been referred to as a type-I edge localized mode (ELM). Type-I ELMs have been shown to be consistent with ideal peeling ballooning instability and are characterized by significant (up to ∼50%) reduction of pedestal height on short (∼1ms) timescales. Knowing whether or not this type of instability is present during H-L back transitions will be important of planning for plasma ramp-down in ITER. This paper presents tests of pre-transition experimental data against ideal peeling-ballooning stability calculations with the ELITE code and supports those results with secondary experiments that together show that the transient associated with the H-L transition is not triggered by the same physics as are type-I ELMs.|
|Citation:||Eldon, D, Boivin, RL, Groebner, RJ, Osborne, TH, Snyder, PB, Turnbull, AD, Tynan, GR, Boedo, JA, Burrell, KH, Kolemen, E, Schmitz, L, Wilson, HR. (2015). Investigation of peeling-ballooning stability prior to transient outbursts accompanying transitions out of H-mode in DIII-D. Physics of Plasmas, 22 (5), 052109 - 052109. doi:10.1063/1.4919942|
|Pages:||052109 - 052109|
|Type of Material:||Journal Article|
|Journal/Proceeding Title:||Physics of Plasmas|
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