Abstract
By varying the initial helical perturbation amplitude of Resonant Magnetic Perturbations (RMPs) applied to a DIII-D plasma equilibrium, a variety of meta-stable equilibrium are scanned using the SIESTA MHD equilibrium code. It is found that increasing the perturbation strength at the dominant m=2 resonant surface leads to lower MHD energies and significant increases in the equilibrium island widths at the m=2 (and sidebands) surfaces. Island overlap eventually leads to stochastic magnetic fields which correlate well with the experimentally inferred field line structure. The magnitude and spatial phase (around associated rational surfaces) of resonant (shielding) components of the parallel current is shown to be correlated with the magnetic island topology.