Litcius/Paper detail

Quasisymmetric Optimization of Nonaxisymmetry in Tokamaks

Jong-Kyu Park, S.M. Yang, N.C. Logan, Qiming Hu, Caoxiang Zhu, M. C. Zarnstorff, R. Nazikian, C. Paz-Soldan, Y.M. Jeon, W.H. Ko

2021Physical Review Letters19 citationsDOIOpen Access PDF

Abstract

Predictive 3D optimization reveals a novel approach to modify a nonaxisymmetric magnetic perturbation to be entirely harmless for tokamaks, by essentially restoring quasisymmetry in perturbed particle orbits as much as possible. Such a quasisymmetric magnetic perturbation (QSMP) has been designed and successfully tested in the KSTAR and DIII-D tokamaks, demonstrating no performance degradation despite the large overall amplitudes of nonaxisymmetric fields and strong response otherwise expected in the tested plasmas. The results indicate that a quasisymmetric optimization is a robust path of error field correction across the resonant and nonresonant field spectrum in a tokamak, leveraging the prevailing concept of quasisymmetry for general 3D plasma confinement systems such as stellarators. The optimization becomes, in fact, a simple eigenvalue problem to the so-called torque response matrices if a perturbed equilibrium is calculated consistent with nonaxisymmetric neoclassical transport.

Topics & Concepts

TokamakPhysicsPerturbation (astronomy)PlasmaEigenvalues and eigenvectorsMagnetic fieldMagnetic confinement fusionPerturbation theory (quantum mechanics)Computational physicsStatistical physicsQuantum electrodynamicsQuantum mechanicsMagnetic confinement fusion researchParticle accelerators and beam dynamicsSuperconducting Materials and Applications
Quasisymmetric Optimization of Nonaxisymmetry in Tokamaks | Litcius