Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4967789 | Journal of Computational Physics | 2017 | 28 Pages |
Abstract
A new numerical code PB3D (Peeling-Ballooning in 3-D) is presented. It implements and solves the intermediate-to-high-n ideal linear magnetohydrodynamic stability theory extended to full edge 3-D magnetic toroidal configurations in previous work [1]. The features that make PB3D unique are the assumptions on the perturbation structure through intermediate-to-high mode numbers n in general 3-D configurations, while allowing for displacement of the plasma edge. This makes PB3D capable of very efficient calculations of the full 3-D stability for the output of multiple equilibrium codes. As first verification, it is checked that results from the stability code MISHKA [2], which considers axisymmetric equilibrium configurations, are accurately reproduced, and these are then successfully extended to 3-D configurations, through comparison with COBRA [3], as well as using checks on physical consistency. The non-intuitive 3-D results presented serve as a tentative first proof of the capabilities of the code.
Related Topics
Physical Sciences and Engineering
Computer Science
Computer Science Applications
Authors
T. Weyens, R. Sánchez, G. Huijsmans, A. Loarte, L. GarcÃa,