Litcius/Paper detail

Anisotropic electron heating in an electron cyclotron resonance thruster with magnetic nozzle

Jean Porto, Paul-Quentin Elias, A. Ciardi

2023Physics of Plasmas11 citationsDOIOpen Access PDF

Abstract

In a grid-less electron cyclotron resonance plasma thruster with a diverging magnetic nozzle, the magnitude of the ambipolar field accelerating the positive ions depends on the perpendicular energy gained by the electrons. This work investigates the heating of the electrons by electromagnetic waves, taking their bouncing motion into account in a confining well formed by the magnetic mirror force and the electrostatic potential of the thruster. An electromagnetic particle-in-cell code is used to simulate the plasma in a magnetic field tube. The code's Maxwell solver is based on a semi-Lagrangian scheme known as the constrained interpolation profile which enables larger time steps. The results show that anisotropic plasma heating takes place exclusively inside the coaxial chamber, along a Doppler-broadened zone. It is also shown that a trapped population of electrons with a larger perpendicular energy exists in the plume.

Topics & Concepts

ElectronPhysicsAtomic physicsElectron cyclotron resonanceMagnetic fieldParticle-in-cellPlasmaMagnetic mirrorAmbipolar diffusionCyclotron resonanceElectromagnetic radiationComputational physicsCyclotronOpticsNuclear physicsQuantum mechanicsPlasma Diagnostics and ApplicationsElectrohydrodynamics and Fluid DynamicsDust and Plasma Wave Phenomena