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Predicting the critical gradient of ITG turbulence in fusion plasmas

M. J. Pueschel, P.-Y. Li, P. W. Terry

2021Nuclear Fusion25 citationsDOIOpen Access PDF

Abstract

Abstract The quasilinear mixing-length approach to efficient prediction of transport in fusion devices is improved to account for the ‘Dimits’ upshift between linear and nonlinear critical pressure gradients in zonal-flow-saturated turbulence regimes. This modification uses the frequency mismatch between modes interacting turbulently to track changes in saturation efficiency. Near criticality, energy is transferred exclusively to stable eigenmodes, rapidly increasing the efficacy of the nonlinearity. The modified quasilinear model is able to predict below-threshold turbulent ion-temperature-gradient-driven transport accurately and also yields significantly improved predictions for trapped-electron-mode transport.

Topics & Concepts

TurbulenceCriticalityNonlinear systemZonal flow (plasma)FusionPhysicsPlasmaPressure gradientGyrokineticsMechanicsSaturation (graph theory)Statistical physicsElectronMode (computer interface)TokamakNuclear physicsMathematicsQuantum mechanicsComputer scienceOperating systemLinguisticsCombinatoricsPhilosophyMagnetic confinement fusion researchFusion materials and technologiesIonosphere and magnetosphere dynamics
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