Verification of the PICLS electromagnetic upgrade in mixed variables
Abstract
The gyrokinetic particle-in-cell code PICLS is a full-f finite element tool to simulate turbulence in the tokamak scrape-off layer. During the previous year, the capability of PICLS was extended to encompass electromagnetic effects. Successful tests using the method of manufactured solutions were conducted on the freshly added Amp\`ere's-law-solver, and shear Alfv\'en waves were simulated to verify the new electromagnetic time step. However, as a code based on the p||-formulation of the gyrokinetic equations, PICLS is affected by the Amp\`ere-cancellation problem. In order to bring higher-beta simulations within reach of our computational capacity, we implemented the mixed-variable formulation with pullback-scheme in a similar fashion to, e.g., EUTERPE, ORB5, or XGC. Here, we present the successful verification of the different electromagnetic formulations of PICLS by simulating shear-Alfv\'en waves in a test setup designed to minimize kinetic effects.
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