Litcius/Paper detail

Rapidly-convergent flux-surface shape parameterization

Robert Arbon, J. Candy, E. A. Belli

2020Plasma Physics and Controlled Fusion27 citationsDOIOpen Access PDF

Abstract

Abstract We propose a novel flux-surface parameterization suitable for local MHD equilibrium calculations with strongly-shaped flux surfaces. The method is based on a systematic expansion in a small number of intuitive shape parameters, and reduces to the well-known Miller D-shaped parameterization in the limit where some of the coefficients are set to zero. The new parameterization is valid for up-down asymmetric plasmas and provides an improvement to the Miller form. Simultaneously, the method is rapidly convergent and requires only about half the number of shape parameters as a general Fourier representation in the pedestal.

Topics & Concepts

Flux (metallurgy)PedestalSurface (topology)Limit (mathematics)Fourier transformPhysicsFourier seriesMagnetohydrodynamicsZero (linguistics)Representation (politics)PlasmaStatistical physicsMathematical analysisMechanicsGeometryMathematicsMaterials scienceQuantum mechanicsPoliticsArchaeologyPhilosophyMetallurgyLawLinguisticsHistoryPolitical scienceMagnetic confinement fusion researchFusion materials and technologiesSuperconducting Materials and Applications