Statistical study of QI stellarator designs shows principal-direction rotation rate of the plasma boundary best predicts coil non-planarity, with surface features yielding Random Forest R²=0.882.
Nuclear Fusion , volume =
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
physics.plasm-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
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.
citing papers explorer
-
Exploring the link between coil non-planarity and magnetic surface geometry across a dataset of QI stellarators
Statistical study of QI stellarator designs shows principal-direction rotation rate of the plasma boundary best predicts coil non-planarity, with surface features yielding Random Forest R²=0.882.
-
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.