A single axisymmetric array of planar HTS dipole coils generates quasi-axisymmetric stellarators with ι up to 0.2, finite-β hybrids with on-axis ι ≈ 1, and shaped tokamaks with κ = 1.7 and δ = ±0.6, all within HTS force limits.
From tokamaks to stellarators: understanding the role of 3D shaping
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abstract
In this work, the role which three-dimensional shaping plays in the generation of rotational transform in toroidal magnetically confinement devices is explored. The susceptance matrix as defined by Strand & Houlberg (2001) is presented and compared to simulations of three dimensional MHD equilibria. The dependence of the edge rotational transform on axisymmetric shaping is briefly explored. It is then shown how simple three dimensional shaping can drive rotational transform in a simply shaped stellarator. It is found that modes with high poloidal mode number drive edge transform with little effect on the core, while modes with poloidal mode m < 2 drive both edge and core rotational transforms. This work concludes with a discussion of the non-linearity of the three dimensional shape space as defined in terms of magnetic symmetry.
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physics.plasm-ph 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Feasibility of a Flexible, Hybrid Tokamak-Stellarator Experiment using an Axisymmetric Dipole Coil Array
A single axisymmetric array of planar HTS dipole coils generates quasi-axisymmetric stellarators with ι up to 0.2, finite-β hybrids with on-axis ι ≈ 1, and shaped tokamaks with κ = 1.7 and δ = ±0.6, all within HTS force limits.