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Kinetic Modeling of Spacecraft Surfaces in a Plume Backflow Region

Nakul Nuwal, Revathi Jambunathan, Deborah A. Levin

2020IEEE Transactions on Plasma Science25 citationsDOI

Abstract

Plasma-surface interactions caused by electric propulsion devices are an important spacecraft aspect of the design that is difficult to measure in ground-based facilities. The negatively biased solar panel surfaces attract the slow-moving charge exchange (CEX) ions generated inside an ion core plume, which can cause surface sputtering on the protective coatings of the solar panels. We use a fully kinetic particle-in-cell direct simulation Monte Carlo (PIC-DSMC) approach that models both electron and ion trajectories to allow us to fully characterize the plasma sheath formed near these surfaces and to understand how the plasma sheath affects the trajectories of CEX ions, their incident energies and angles, and surface sputtering rates. We find that, outside the plasma core, the ion and electron distribution functions are highly non-Maxwellian, and the assumption of electron temperatures is questionable. We introduce a novel floating potential ground boundary condition that enables us to emulate the spacecraft ground for a high range of plasma number densities and surface charging conditions. Finally, we estimate the erosion of the surface using the kinetic results and surface yield empirical relations.

Topics & Concepts

Ion thrusterPlasmaSpacecraftPlumeSpacecraft chargingAtomic physicsSputteringIonKinetic energyComputational physicsMaterials scienceElectrically powered spacecraft propulsionDirect simulation Monte CarloElectronMonte Carlo methodRange (aeronautics)PhysicsPropulsionNanotechnologyMeteorologyClassical mechanicsAstronomyStatisticsComposite materialDynamic Monte Carlo methodThermodynamicsMathematicsQuantum mechanicsThin filmPlasma Diagnostics and ApplicationsLaser-induced spectroscopy and plasmaElectrohydrodynamics and Fluid Dynamics
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