Modeling coronal streamers and their eruption |
| |
Authors: | R. S. Steinolfson |
| |
Affiliation: | (1) Department of Space Sciences, Southwest Research Institute, 78238-5166 San Antonio, TX, USA |
| |
Abstract: | Numerical solutions of the time-dependent MHD equations are used to generate ambient coronal streamer structures in a corona characteristic of that near solar minimum. The streamers are then disrupted by slow photospheric shear motion at the base of magnetic field lines within the closed field region, which is currently believed to be responsible for producing at least some CMEs. In contrast to several other simulations of this phenomena, the polytropic index is maintained at a value of 5/3 through the addition of coronal heating. Observations are used as a guide in determining the thermodynamic structure and plasma beta in the ambient corona. For a shear speed of 2.5 km/sec, the streamer configuration evolves slowly for about 65 hours before erupting outward with the formation of a CME. The bright CME leading edge travels outward at a speed of about 240 km/sec, and the sheared field lines follow at a somewhat slower speed. A closed magnetic field region is ejected as the magnetic field lines that were opened by the CME reconnect and reform the streamer. |
| |
Keywords: | Sun Corona Streamers Coronal Mass Ejections |
本文献已被 SpringerLink 等数据库收录! |
|