Litcius/Paper detail

Fusion by beam ions in a low collisionality, high mirror ratio magnetic mirror

J. Egedal, Douglass Endrizzi, C. B. Forest, T.K. Fowler

2022Nuclear Fusion27 citationsDOIOpen Access PDF

Abstract

Abstract The classical problem of neutral beam ions slowing down in a magnetic mirror geometry is revisited to provide predictive capability for the new Wisconsin HTS Axisymmetric Mirror under development at the University of Wisconsin. A Fokker–Planck model named fast beam ion solver (FBIS) is developed to include the spatial non-uniformity of a physical mirror geometry. The mathematical framework allows for efficient orbit averaging of the pitch-angle scattering operator, and permits a determination of the axial profile of the ambipolar potential confining the electrons. The numerical results from FBIS are consistent with earlier work, but further show how mirror-ratio and a near square magnetic well optimizes the fusion gain. The numerical results are also applied to inform the conceptual design of WHAM++, a low capital-cost breakeven-class magnetic mirror device.

Topics & Concepts

Magnetic mirrorMirror symmetryOpticsPhysicsAmbipolar diffusionCollisionalityPlasmaSolverRotational symmetryBeam (structure)ScatteringComputational physicsTokamakComputer scienceQuantum mechanicsMechanicsProgramming languageMagnetic confinement fusion researchParticle accelerators and beam dynamicsSuperconducting Materials and Applications