Cosmic Ray Source Abundances and the Acceleration of Cosmic Rays

Authors :: Mewaldt, Richard A.
Miller, Marjorie
Jokipii, J. R.
Lee, Martin A.
Zurbuchen, Thomas H.
Mobius, Eberhard
George, J. S.
Wiedenbeck, M. E.
Barghouty, A. F.
Binns, W. R.
Christian, E. R.
Cummings, A. C.
Hink, P. L.
Klarmann, J.
Leske, R. A.
Lijowski, M.
Mewaldt, R. A.
Stone, E. C.
von Rosenvinge, T. T.
Yanasak, N. E.
Mewaldt, Richard A.
Miller, Marjorie
Jokipii, J. R.
Lee, Martin A.
Zurbuchen, Thomas H.
Mobius, Eberhard
George, J. S.
Wiedenbeck, M. E.
Barghouty, A. F.
Binns, W. R.
Christian, E. R.
Cummings, A. C.
Hink, P. L.
Klarmann, J.
Leske, R. A.
Lijowski, M.
Mewaldt, R. A.
Stone, E. C.
von Rosenvinge, T. T.
Yanasak, N. E.
Publication Year :: 2000
Abstract: The galactic cosmic ray elemental source abundances display a fractionation that is possibly based on first ionization potential (FIP) or volatility. A few elements break the general correlation of FIP and volatility and the abundances of these may help to distinguish between models for the origin of the cosmic ray source material. Data from the Cosmic Ray Isotope Spectrometer instrument on NASA’s Advanced Composition Explorer spacecraft were used to derive source abundances for several of these elements (Na, Cu, Zn, Ga, Ge). Three (Na, Cu, Ge) show depletions which could be consistent with a volatility-based source fractionation model.

Database :: OAIster
Notes :: application/pdf, Cosmic Ray Source Abundances and the Acceleration of Cosmic Rays, English
Publication Type :: Electronic Resource
Accession number :: edsoai.on1005055054
Document Type :: Electronic Resource