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Single and double null equilibria in the SMART Tokamak

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Authors

Doyle, S.J.; Mancini, A.; Agredano-Torres, M.; Garcia-Sanchez, J.L.; Segado-Fernandez, J.; Ayllon-Guerola, J.; Garcia-Munoz, M.; Viezzer, E.; Garcia-Lopez, J.; Hwang, Y. S.; Chung, K.J.

Issue Date
2021-12
Publisher
IoP Institute of Physics
Citation
Plasma Research Express, Vol.3 No.4, p. 044001
Abstract
© 2021 IOP Publishing LtdThe SMall Aspect Ratio Tokamak (SMART) device is a novel, compact (Rgeo = 0.42 m, a = 0.22 m, A 1.70) spherical tokamak, currently under development at the University of Seville. The SMART device is being developed over 3 phases, with target on-axis toroidal magnetic fields between 0.1 ≼ Bf ≼ 1.0 T, and target plasma currents of between 35 ≼ Ip ≼ 400 kA; with phases 2 and 3 enabling access to a wide range of elongations (κ ≼ 2.30) and triangularities (− 0.50 ≼ δ ≼ 0.50). SMART employs four internal divertor coils with two internal and two external poloidal field coils, enabling operation in lower-single, upper-single and double-null configurations. This work examines phase 3 of the SMART device, presenting a prospective L-mode discharge scenario without external heating, before examining five highly-shaped equilibria, including: two double null triangular configurations, two single null triangular configurations and a baseline double null configuration. All equilibria are obtained via an axisymmetric Grad-Shafranov force balance solver (Fiesta), in combination with a circuit equation rigid current displacement model (RZIp) to obtain time-resolved vessel and plasma currents.
ISSN
2516-1067
URI
https://hdl.handle.net/10371/179738
DOI
https://doi.org/10.1088/2516-1067/ac2a0e
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