Stability and Transport of Gyrokinetic Critical Pedestals

Abstract

A gyrokinetic threshold model for pedestal width-height scaling prediction is applied to multiple devices and to a shaping and aspect-ratio scan giving ped = 0.92 A1.04 -1.24 0.38δ βθ,ped1.05 for pedestal width ped, aspect-ratio A, elongation , triangularity δ, and normalized pedestal height βθ,ped. We also find a width-transport scaling ped = 0.028 (qe/e - 1.7 )1.5 ηe 1.5 where qe and e are turbulent electron heat and particle fluxes and ηe = ∇ Te / ∇ ne for electron temperature Te and density ne. Pedestals close to those limited by kinetic-ballooning-modes (KBMs) have modified turbulent transport properties compared to strongly driven KBMs. The role of flow shear is studied as a width-height scaling constraint and pedestal saturation mechanism for a standard and wide pedestal discharge.