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Kinetic modeling of neutral transport for a continuum gyrokinetic code

T. N. Bernard, Federico David Halpern, Manaure Francisquez, Noah Mandell, James Juno, G. W. Hammett, Ammar Hakim, George Wilkie, J. Guterl

2022Physics of Plasmas20 citationsDOIOpen Access PDF

Abstract

We present the first-of-its-kind coupling of a continuum full-f gyrokinetic turbulence model with a 6D continuum model for kinetic neutrals, carried out using the Gkeyll code. Our objective is to improve the first-principle understanding of the role of neutrals in plasma fueling, detachment, and their interaction with edge plasma profiles and turbulence statistics. Our model includes only atomic hydrogen and incorporates electron-impact ionization, charge exchange, and wall recycling. These features have been successfully verified with analytical predictions and benchmarked with the DEGAS2 Monte Carlo neutral code. We carry out simulations for a scrape-off layer (SOL) with simplified geometry and National Spherical Torus Experiment parameters. We compare these results to a baseline simulation without neutrals and find that neutral interactions reduce the normalized density fluctuation levels and associated skewness and kurtosis, while increasing auto-correlation times. A flatter density profile is also observed, similar to the SOL density shoulder formation in experimental scenarios with high fueling.

Topics & Concepts

KurtosisPlasmaTurbulenceKinetic energyPhysicsIonizationSkewnessComputational physicsCharge exchangeMonte Carlo methodElectron densityStatistical physicsAtomic physicsIonMechanicsClassical mechanicsNuclear physicsMathematicsStatisticsQuantum mechanicsMagnetic confinement fusion researchIonosphere and magnetosphere dynamicsPlasma Diagnostics and Applications
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