Electric current dynamics in the stellarator coil winding surface model
Abstract
In stellarator design, the coil winding surfaces ⊂ R3 support current distributions j that shape the magnetic field. This work provides a theoretical framework explaining the emergence of centre and saddle point regions, a key feature in coil optimisation. For coil winding surfaces with a toroidal shape, we prove a dichotomy principle: the current distribution has both centre and saddle point regions or is no-where vanishing. For coil winding surfaces that consist of piecewise cylinders, we show that if j is oppositely oriented on the two boundary circles, centre and saddle points appear, and all but finitely many field lines of j are periodic. When j admits a harmonic potential, all field lines are closed poloidal orbits. These results offer insights into current patterns on winding surfaces, with implications for coil design strategies and their simplification.
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