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Autori principali: Salguero-Martínez, Kassandra, Herrera-Velázquez, J. Julio E.
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.02139
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author Salguero-Martínez, Kassandra
Herrera-Velázquez, J. Julio E.
author_facet Salguero-Martínez, Kassandra
Herrera-Velázquez, J. Julio E.
contents Inspired by the design for the simple Columbia Non-neutral Torus (CNT) proposed by Pedersen and Boozer (Phys. Rev. Lett. 88 205002(2002)), and later revisited by Yu et al. (J. Plasma Phys. 88 905880306 (2022)), this work explores axi-symmetric equilibria using two planar vertical field coils and two non-planar intertwined coils. Neoclassical optimization studies are performed in a single stage approach using the DESC stellarator equilibrium solver (Dudt and Koleman, Phys. Plasmas 27 (2020) 102513). The physical parameters used as input were the toroidal magnetic flux function $ψ$, the rotational transform $ι(ρ)$ as a function of the normalized flux function $ρ$ as the radial coordinate, the number of field periods $N_{FP}$, and an initial equilibrium assumption, given the major radius $R_0$ and the minor radius $a$. Once the equilibrium given by the coil configuration is defined, an optimization is made for quasi-symmetry. In this study, a triple product metric as defined by Dudt et al., (J. Plasma Phys. 89 (2023) 95589020) is used as a local error indicator, which is evaluated without resorting to Boozer coordinates. The goal is to optimize the effective ripple modulation amplitude $ε_{eff}^{3/2}$, thus decreasing the neoclassical transport in the low collisionality $1/ν$ regime. We show a sample of quasi-axisymmetric configurations obtained, both for the vacuum field and with finite pressure, which have reasonably good neoclassical transport in the sense of Boozer coordinates. In the best case scenarios the final rotational transfrom is inverted after optimization.
format Preprint
id arxiv_https___arxiv_org_abs_2605_02139
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Equilibrium of a simplified coil quasi-axisymmetric stellarator: Free boundary approach
Salguero-Martínez, Kassandra
Herrera-Velázquez, J. Julio E.
Plasma Physics
Inspired by the design for the simple Columbia Non-neutral Torus (CNT) proposed by Pedersen and Boozer (Phys. Rev. Lett. 88 205002(2002)), and later revisited by Yu et al. (J. Plasma Phys. 88 905880306 (2022)), this work explores axi-symmetric equilibria using two planar vertical field coils and two non-planar intertwined coils. Neoclassical optimization studies are performed in a single stage approach using the DESC stellarator equilibrium solver (Dudt and Koleman, Phys. Plasmas 27 (2020) 102513). The physical parameters used as input were the toroidal magnetic flux function $ψ$, the rotational transform $ι(ρ)$ as a function of the normalized flux function $ρ$ as the radial coordinate, the number of field periods $N_{FP}$, and an initial equilibrium assumption, given the major radius $R_0$ and the minor radius $a$. Once the equilibrium given by the coil configuration is defined, an optimization is made for quasi-symmetry. In this study, a triple product metric as defined by Dudt et al., (J. Plasma Phys. 89 (2023) 95589020) is used as a local error indicator, which is evaluated without resorting to Boozer coordinates. The goal is to optimize the effective ripple modulation amplitude $ε_{eff}^{3/2}$, thus decreasing the neoclassical transport in the low collisionality $1/ν$ regime. We show a sample of quasi-axisymmetric configurations obtained, both for the vacuum field and with finite pressure, which have reasonably good neoclassical transport in the sense of Boozer coordinates. In the best case scenarios the final rotational transfrom is inverted after optimization.
title Equilibrium of a simplified coil quasi-axisymmetric stellarator: Free boundary approach
topic Plasma Physics
url https://arxiv.org/abs/2605.02139