NUMERICAL METHODS FOR FAST MAGNETOACOUSTIC WAVES IN SOLAR CORONAL LOOPS
Abstract
Numerical methods for standing fast magnetoacoustic kink waves in an isothermal solar coronal slab with a field aligned flow are considered. Such waves are triggered impulsively by a velocity pulse that is initially launched in an ambient medium. The spatial and temporal signatures of these waves are determined by solving two-dimensional, ideal magnetohydrodynamic equations numerically. The Ramses code which resolves complex spatial structures by adopting an adaptive mesh refinement technique and shock-capturing capabilities is used. The numerical results show that spatial and temporal wave signatures are reminiscent to the recent observational findings.
Keywords:
numerical simulations, Godunov methods, magnetohydrodynamicsDetails
- Issue
- Vol. 13 No. 1-2 (2009)
- Section
- Research article
- Published
- 2009-06-30
- Licencja:
-
This work is licensed under a Creative Commons Attribution 4.0 International License.
