A program to solve rotating plasma problems. Nature of problem: Rotation of a partially ionized gas in a cylinder, caused by crossed electric and magnetic fields. Solution method: The system of PDE’s is discretized to a symmetric system of linear equations by means of the finite element method using continuous piecewise bilinear functions. The linear system is scaled and solved by means of the conjugate gradient method.
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References in zbMATH (referenced in 4 articles )
Showing results 1 to 4 of 4.
- Aliaga, José I.; Alonso, Pedro; Badía, José M.; Chacón, Pablo; Davidović, Davor; López-Blanco, José R.; Quintana-Ortí, Enrique S.: A fast band-Krylov eigensolver for macromolecular functional motion simulation on multicore architectures and graphics processors (2016)
- Legay, Axel; Sedwards, Sean; Traonouez, Louis-Marie: Rare events for statistical model checking an overview (2016)
- Kolberg, Mariana; Bohlender, Gerd; Fernandes, Luiz Gustavo: An efficient approach to solve very large dense linear systems with verified computing on clusters. (2015)
- Bakker, M.; Van den Berg, M. S.: A program to solve rotating plasma problems (1979)