CISM

SOHO image animation (57k)
images from SOHO-EIT

Solar/Interplanetary Models
coronal ejections

The underlying causes of coronal eruptions, or coronal mass ejections (CMEs), must be determined if we are going to use solar observations to make successful predictions of space weather storms at 1 AU. These causes can be studied with large-scale or global MHD coronal models in time-dependent form. The SAIC coronal model, and another MHD model at NRL, are capable of exploring the possible causes of CMEs. Concepts based on photospheric field behavior are readily tested using the Stanford/Lockheed magnetograph data and these computational tools. It will be necessary to simulate both the speed of the CME and its magnetic field configuration to make a successful storm prediction.

The top figure shows an SAIC model simulation of field line behavior during a CME. In this case the simulated CME was initiated by reversing the polarity of the photospheric magnetic field under an idealized sheared coronal arcade structure. The figure below shows an alternative model from NRL where a CME was initiated by emerging flux in a quadrupolar coronal field configuration. Indeed, several CME genesis scenarios may apply in nature. The bottom figure shows simulated integrated line-of-sight densities, as might be viewed with a coronagraph, for the SAIC CME model from a different perspective.

Click on the images to the left to view the corresponding animation.

[Back to Science Overview]