Radial coordinate maps, radial vectors, and binormal vectors for 5/6, 5/5 and 5/4 edge island domains in W7-X

Abstract The edge island domain in Wendelstein 7-X consists of divertor islands whose position coincide with the location of rational values of the rotational transform <?CDATA ${\textrm{-}}\mkern-6mu\iota \approx(5/6, 5/5, 5/4)$?> - ι ≈ ( 5 / 6 , 5 / 5 , 5 / 4 ) and surround the main confinem...

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Bibliographic Details
Published in:Plasma Physics and Controlled Fusion
Main Authors: Schmitt, J C, Kriete, D M, Andreeva, T, Geiger, J, Grahl, M, Schilling, J, Thomsen, H, Flom, E
Other Authors: EUROfusion Consortium, Department of Energy
Format: Article in Journal/Newspaper
Language:unknown
Published: IOP Publishing 2022
Subjects:
Single Island
Edge Island
Online Access:http://dx.doi.org/10.1088/1361-6587/ac5f3f
https://iopscience.iop.org/article/10.1088/1361-6587/ac5f3f
https://iopscience.iop.org/article/10.1088/1361-6587/ac5f3f/pdf
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Summary:Abstract The edge island domain in Wendelstein 7-X consists of divertor islands whose position coincide with the location of rational values of the rotational transform <?CDATA ${\textrm{-}}\mkern-6mu\iota \approx(5/6, 5/5, 5/4)$?> - ι ≈ ( 5 / 6 , 5 / 5 , 5 / 4 ) and surround the main confinement volume (the ‘main plasma’), providing the magnetic topology for an island divertor. The 5/5 edge consists of five individual islands that are unconnected. In contrast, a single island connects onto itself after 6 or 4 toroidal transits in the 5/6 or 5/4 edge, respectively. Many interesting phenomena are related to these islands and diagnostic analyses require a mapping from ‘laboratory’ or real space coordinates to the island coordinate system (ICS). A procedure is described here to calculate several scalar and vector quantities for closed island structures which can be utilized in fast interpolation schemes for inverse maps. For the 5/5 edge, a fixed-boundary vacuum (zero beta) magneto-hydrodynamic solution of the 5/5 island is found with the Variational Moments Equilibrium Code, VMEC. The solution is compatible with already existing routines which determine the radial and binormal vectors of VMEC solutions at arbitrary laboratory coordinates. VMEC does not support solutions for the 5/4 and 5/6 islands, but the radial and binormal vectors are available in a local 2D Fourier ICS.

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