Application of linear electron Bernstein current drive models in reactor-relevant spherical tokamaks
Biswas, Bodhi and Speirs, David and Freethy, Simon and Vann, Roddy (2023) Application of linear electron Bernstein current drive models in reactor-relevant spherical tokamaks. Nuclear Fusion, 63 (12). 126011. ISSN 0029-5515 (https://doi.org/10.1088/1741-4326/acf724)
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Abstract
Electron Bernstein current drive (EBCD) systems in spherical tokamaks are sensitive to plasma and launch conditions, and therefore require large parametric scans to optimise their design. One particular bottleneck in the simulation workflow is quasilinear modelling of current drive efficiency. Linear adjoint models are an attractive alternative, offering a ∼103 × speed-up compared to quasilinear codes. While linear models are well-tested and commonly used for electron cyclotron current drive (ECCD), they have seen little use in EBCD modelling. In this work, variants of the linear model are applied to EBCD and compared to quasilinear results in a reactor-relevant plasma, i.e. Spherical Tokamak for Energy Production (STEP). This comparison reveals it is important to accurately model the collision operator and finite Larmor radius effects in the linear model. When done properly, good agreement is found with quasilinear calculations, at least for normalised minor radii ρ < 0.7 and at low power densities. The power density threshold for quasilinear effects during EBCD is found to be significantly lower than that of ECCD. This is attributed to the much lower group velocity of the electron Bernstein wave (EBW). Thus, the linear model is only valid for EBCD modelling at low power densities (e.g. ≲ 1 MW launched EBW power in STEP). This may be satisfied in present-day experimental devices, but certainly not in reactors targeting non-inductive operation.
ORCID iDs
Biswas, Bodhi, Speirs, David ORCID: https://orcid.org/0000-0001-5705-6126, Freethy, Simon and Vann, Roddy;-
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Item type: Article ID code: 86807 Dates: DateEvent1 December 2023Published25 September 2023Published Online6 September 2023Accepted23 May 2023SubmittedSubjects: Science > Physics > Nuclear and particle physics. Atomic energy. Radioactivity Department: Faculty of Science > Physics Depositing user: Pure Administrator Date deposited: 29 Sep 2023 13:50 Last modified: 12 Dec 2024 15:02 URI: https://strathprints.strath.ac.uk/id/eprint/86807