Litcius/Paper detail

Full fluid moment modeling of rotating spokes in Penning-type configuration

A. R. Mansour, K. Hara

2022Plasma Sources Science and Technology12 citationsDOIOpen Access PDF

Abstract

Abstract Rotating spokes are observed in a partially magnetized plasma using a two-dimensional full fluid moment (FFM) model. In the present setup, where the radial electric field and plasma density gradient exist in opposite directions, it is observed that the spokes propagate in the direction of the diamagnetic drift and not the E × B drift. This is contrary to the modified Simon–Hoh instability, and the results suggest that the spokes can be driven by a strong diamagnetic drift. Different parameters, including magnetic field amplitude and physical domain size, influence the growth of the rotational instability as well as the dominant wave modes that arise. The propagation speed of the rotating spokes obtained from the FFM simulation are in good agreement with the observations in experimental and other computational work.

Topics & Concepts

DiamagnetismInstabilityPhysicsAmplitudePlasmaMoment (physics)Electric fieldMechanicsMagnetic fieldField (mathematics)Classical mechanicsAtomic physicsOpticsQuantum mechanicsPure mathematicsMathematicsMagnetic confinement fusion researchIonosphere and magnetosphere dynamicsSolar and Space Plasma Dynamics