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The Effect of Plasma Shape on H-Mode Pedestal Characteristics on DIII-D

Conference ·
OSTI ID:766744
 [1]; ; ; ; ; ; ; ; ;
  1. General Atomics
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The characteristics of the H-mode are studied in discharges with varying triangularity and squareness. The pressure at the top of the H-mode pedestal increases strongly with triangularity primarily due to an increase in the margin by which the edge pressure gradient exceeds the ideal ballooning mode first stability limit. Two models are considered for how the edge may exceed the ballooning mode limit. In one model [1], access to the ballooning mode second stable regime allows the edge pressure gradient and associated bootstrap current to continue to increase until an edge localized, low toroidal mode number, ideal kink mode is destabilized. In the second model [2], the finite width of the H-mode transport barrier, and diamagnetic effects raise the pressure gradient limit above the ballooning mode limit. We observe a weak inverse dependence of the width of the H-mode transport barrier, {Delta}, on triangularity relative to the previously obtained [3] scaling {Delta} {infinity} ({beta}{sub P}{sup PED}){sup 1/2}. The energy loss for Type I ELMs increases with triangularity in proportion to the pedestal energy increase. The temperature profile is found to respond stiffly to changes in T{sup PED} at low temperature, while at high temperature the response is additive. The response of the density profile is also found to play a role in the response of the total stored energy to changes in the W{sup PED}.
Research Organization:
General Atomics, San Diego, CA (US)
Sponsoring Organization:
US Department of Energy (US)
DOE Contract Number:
AC03-99ER54463; AC05-96OR22464; AC04-94AL85000
OSTI ID:
766744
Report Number(s):
GA-A23273
Country of Publication:
United States
Language:
English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
BOOTSTRAP CURRENT
DOUBLET-3 DEVICE
H-MODE PLASMA CONFINEMENT
MATHEMATICAL MODELS
PLASMA
PRESSURE GRADIENTS
SHAPE
STABILITY
STORED ENERGY