{ "id": "astro-ph/0004166", "version": "v1", "published": "2000-04-12T19:22:21.000Z", "updated": "2000-04-12T19:22:21.000Z", "title": "Cosmic Ray Acceleration in Superbubbles and the Composition of Cosmic Rays", "authors": [ "R. E. Lingenfelter", "J. C. Higdon", "R. Ramaty" ], "comment": "latex 8 pages, to appear in Proc. ACE-2000 Symp., AIP Conf. Proc", "doi": "10.1063/1.1324342", "categories": [ "astro-ph" ], "abstract": "We review the evidence for cosmic ray acceleration in the superbubble/hot phase of the interstellar medium, and discuss the implications for the composition of cosmic rays and the structure and evolution of the interstellar medium. We show that the bulk of the galactic supernovae, their expanding remnants, together with their metal-rich grain and gas ejecta, and their cosmic ray accelerating shocks, are all confined within the interiors of superbubbles, generated by the multiple supernova explosions of massive stars formed in giant OB associations. This superbubble/hot phase of the ISM provides throughout the age of the Galaxy a cosmic ray source of essentially constant metallicity for acceleration by the shocks of many supernovae over time scales of a few Myr, consistent with both the Be/Fe evolution and ACE observations of Ni-59/Co-59. We also show that if the refractory cosmic ray metals come from the sputtering of fast refractory grains then the accompanying scattering of ambient gas by these fast grains can also account for the relative abundance of cosmic ray volatiles.", "revisions": [ { "version": "v1", "updated": "2000-04-12T19:22:21.000Z" } ], "analyses": { "subjects": [ "98.70.Sa", "98.38.Kx" ], "keywords": [ "cosmic ray acceleration", "superbubbles", "composition", "refractory cosmic ray metals come", "interstellar medium" ], "tags": [ "journal article" ], "note": { "typesetting": "LaTeX", "pages": 8, "language": "en", "license": "arXiv", "status": "editable", "inspire": 545394, "adsabs": "2000AIPC..528..375L" } } }