Experimental Evidence for Increased Particle Fluxes Due to a Change in Transport at the Separatrix near Density Limits on Alcator C-Mod
Abstract
Experimental inferences of cross-field particle flux at the separatrix, sep, show rapid growth near H-mode and L-mode density limits at high magnetic field on Alcator C-Mod. Increases in sep correlate well with proximity to high density operational boundaries as proposed by the separatrix operational space model. sep grows as the L-mode density limit and the H-L-mode back transition boundaries are approached, consistent with expectations of plasma instability-driven turbulence suggested by theory, confirming the power dependence of density limits. sep is well-organized by the characteristic wavenumber for resistive ballooning mode turbulence, kRBM, from interchange-drift-Alfv\'en fluid turbulence theory, with additional dependence on the cylindrical safety factor, qcyl, yielding an empirical limit to plasma operation of kRBM2qcyl = 1. This limit corresponds to the point where the perpendicular heat flux, Q, reaches the level of the parallel heat flux, Q, i.e. Q ≈ Q, beyond which point thermal equilibrium is not satisfied, resulting in a fold catastrophe.
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