Suppression of Large Edge-Localized Modes in High-Confinement DIII-D Plasmas with a Stochastic Magnetic Boundary

Authors :: G. Wang
C.J. Lasnier
D. G. Pretty
T. L. Rhodes
R. J. Groebner
D.L. Rudakov
R.J. La Haye
Suguru Masuzaki
K.H. Finken
R.A. Moyer
M.J. Schaffer
T.H. Osborne
Max E. Fenstermacher
Todd Evans
P R Thomas
Lei Zeng
E. J. Doyle
M. Groth
Nobuyoshi Ohyabu
J. H. Harris
J.G. Watkins
Jose Boedo
H. Reimerdes
Source :: Physical review letters 92, 235003-1-235003-4 (2004). doi:10.1103/PhysRevLett.92.235003
Publication Year :: 2004
Publisher :: American Physical Society (APS), 2004.
Abstract: OAK-B135 A stochastic magnetic boundary, produced by an externally applied edge resonant magnetic perturbation, is used to suppress large edge localized modes (ELMs) in high confinement (H-mode) plasmas. The resulting H-mode displays rapid, small oscillations with a bursty character modulated by a coherent 130 Hz envelope. The H-mode transport barrier is unaffected by the stochastic boundary. The core confinement of these discharges is unaffected, despite a three-fold drop in the toroidal rotation in the plasma core. These results demonstrate that stochastic boundaries are compatible with H-modes and may be attractive for ELM control in next-step burning fusion tokamaks.

Subjects :: Physics
Tokamak
DIII-D
General Physics and Astronomy
Magnetic confinement fusion
Fusion power
Plasma oscillation
Resonant magnetic perturbations
law.invention
Physics::Plasma Physics
law
ddc:550
Boundary value problem
Atomic physics
Edge-localized mode

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