Symbolic vector analysis in plasma physics. Many problems in plasma physics involve substantial amounts of analytical vector calculation. The complexity usually originates from both the vector operations themselves and the underlying coordinate systems. A computer algebra package for symbolic vector analysis in general coordinate systems, GeneralVectorAnalysis (GVA), is developed using Mathematica. The modern viewpoint for 3D vector calculus, differential forms on 3-manifolds, is adopted to unify and systematize the vector calculus operations in general coordinate systems. Besides the basic vector analysis functions, the package provides asymptotic capabilities, 2D vector analysis notation, and a simple interface for users to define their own coordinate systems. These features will benefit physicists and applied mathematicians in their research where complicated vector analysis in complicated coordinate systems is required. Several applications of this symbolic vector analysis package to plasma physics are also given.
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References in zbMATH (referenced in 4 articles )
Showing results 1 to 4 of 4.
- Lin, Jingbo; Zhang, Wenlu; Liu, Pengfei; Cao, Jintao; Li, Ding: Automatic generation of finite difference field solvers for toroidally confined plasmas (2020)
- Nan Chu: SymFields: An Open Source Symbolic Fields Analysis Tool for General Curvilinear Coordinates in Python (2020) arXiv
- Squire, J.; Burby, J.; Qin, H.: \textttVEST: Abstract vector calculus simplification in \textttMathematica (2014)
- Qin, H.; Tang, W. M.; Rewoldt, G.: Symbolic vector analysis in plasma physics (1999)