Interacting coronal mass ejections and solar energetic particles

We studied the association between solar energetic particle (SEP) events and coronal mass ejections (CMEs) and found that CME interaction is an important aspect of SEP production. Each SEP event was associated with a primary CME that is faster and wider than average CMEs and originated from west of E45degrees. For most of the SEP events, the primary CME overtakes one or more slower CMEs within a heliocentric distance of similar to20 R-circle dot. In an inverse study, we found that for all the fast (speed greater than 900 km s(-1)) and wide (width greater than 60degrees) western hemispheric frontside CMEs during the study period, the SEP-associated CMEs were similar to4 times more likely to be preceded by CME interaction than the SEP-poor CMEs; i.e., CME interaction is a good discriminator between SEP-poor and SEP-associated CMEs. We infer that the efficiency of the CME-driven shocks is enhanced as they propagate through the preceding CMEs and that they accelerate SEPs from the material of the preceding CMEs rather than from the quiet solar wind. We also found a high degree of association between major SEP events and interplanetary type II radio bursts, suggesting that proton accelerators are also good electron accelerators.