Stability and dynamics of the edge pedestal in the low collisionality regime: physics mechanisms for steady-state ELM-free operation

P.B. Snyder; X. Q. Xu; M. Umansky; A.W. Leonard; K.H. Burrell; M.E. Fenstermacher; W.P. West; M. S. Chu; R. A. Moyer; T.H. Osborne; H. R. Wilson

doi:10.1088/0029-5515/47/8/030

Stability and dynamics of the edge pedestal in the low collisionality regime: physics mechanisms for steady-state ELM-free operation

P.B. Snyder(General Atomics (United States)), X. Q. Xu(Lawrence Livermore National Laboratory), M. Umansky(Lawrence Livermore National Laboratory), A.W. Leonard(General Atomics (United States)), K.H. Burrell(General Atomics (United States)), M.E. Fenstermacher(Lawrence Livermore National Laboratory), W.P. West(University College London), M. S. Chu(General Atomics (United States)), R. A. Moyer(University of California, Berkeley), T.H. Osborne(University of Wisconsin–Madison), H. R. Wilson(University of York)

Nuclear Fusion

August 1, 2007

10.1088/0029-5515/47/8/030

Cited by 258

|Nature Physics|2006|631

Nonlinear magnetohydrodynamics simulation using high-order finite elements

|Journal of Computational Physics|2003|537

First tests of molybdenum mirrors for ITER diagnostics in DIII-D divertor

|Review of Scientific Instruments|2006|222

Regime of very high confinement in the boronized DIII-D tokamak

|Physical Review Letters|1991|206

Dust measurements in tokamaks (invited)

|Review of Scientific Instruments|2008|195

Stability and dynamics of the edge pedestal in the low collisionality regime: physics mechanisms for steady-state ELM-free operation

Related Papers