Trapped-particle precession and modes in quasisymmetric stellarators and tokamaks: a near-axis perspective

Author:

Rodríguez E.ORCID,Mackenbach R.J.J.ORCID

Abstract

This paper presents the calculation of the bounce-averaged drift of trapped particles in a near-axis framework for axisymmetric and quasisymmetric magnetic fields that possess up-down and stellarator symmetry, respectively. This analytic consideration provides important insight on the dependence of the bounce-averaged drift on the geometry and stability properties of the field. In particular, we show that although the maximum- $\mathcal {J}$ property is unattainable in quasisymmetric stellarators, one may approach it through increased plasma $\beta$ and triangular shaping, albeit going through a reduced precession scenario with potentially higher particle losses. The description of trapped particles allows us to calculate the available energy of trapped electrons analytically in two asymptotic regimes, providing insight into the behaviour of this measure of turbulence. It is shown that the available energy is intimately related to magnetohydrodynamics (MHD) stability, providing a potential synergy between this measure of gyrokinetic turbulence and MHD stability.

Funder

Nederlandse Organisatie voor Wetenschappelijk Onderzoek

Alexander von Humboldt-Stiftung

Simons Foundation

Publisher

Cambridge University Press (CUP)

Subject

Condensed Matter Physics

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