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Fluctuation reduction and enhanced confinement in the MST reversed-field pinch

Thesis/Dissertation ·
DOI:https://doi.org/10.2172/544706· OSTI ID:544706
 [1]
  1. Univ. of Wisconsin, Madison, WI (United States)
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Plasmas with a factor of ≥3 improvement in energy confinement have been achieved in the MST reversed-field pinch (RFP). These plasmas occur spontaneously, following sawtooth crashes, subject to constraints on, eg, toroidal magnetic field reversal and wall conditioning. Possible contributors to the improved confinement include a reduction of core-resonant, global magnetic fluctuations and a reduction of electrostatic fluctuations over the entire plasma edge. One feature of these plasmas is a region of strong ExB flow shear in the edge. Never before observed in conjunction with enhanced confinement in the RFP, such shear is common in enhanced confinement discharges in tokamaks and stellarators. Another feature of these plasmas is a new type of discrete dynamo event. Like sawtooth crashes, a common form of discrete dynamo, these events correspond to bursts of edge parallel current. The reduction of electrostatic fluctuations in these plasmas occurs within and beyond the region of strong ExB flow shear, similar to what is observed in tokamaks and stellarators. However, the reductions in the MST include fluctuations whose correlation lengths are larger than the width of the shear region. The reduction of the global magnetic fluctuations is most likely due to flattening of the μ=μ0$$\vec{J}$$∙$$\vec{B}$$/B2 profile. Flattening can occur, eg, due to the new type of discrete dynamo event and reduced edge resistivity. Enhanced confinement plasmas are also achieved in the MST when auxiliary current is applied to flatten the μ profile and reduce magnetic fluctuations. Unexpectedly, these plasmas also exhibit a region (broader than in the case above) of strong ExB flow shear in the edge, an edge-wide reduction of electrostatic fluctuations, and the new type of discrete dynamo event. Auxiliary current drive has historically been viewed as the principal route to fusion reactor viability for the RFP.
Research Organization:
Wisconsin Univ., Madison, WI (United States)
Sponsoring Organization:
USDOE Office of Energy Research (ER); Oak Ridge Inst. for Science and Education
DOE Contract Number:
FG02-96ER54345
OSTI ID:
544706
Report Number(s):
DOE/ER/54345--296; ON: DE98001048
Country of Publication:
United States
Language:
English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
AUXILIARY HEATING
CONFINEMENT
CROSSED FIELDS
FLUCTUATIONS
MST DEVICE
SHEAR