Measurements of cosmic-ray secondary nuclei at high energies with the first flight of the CREAM balloon-borne experiment

Authors :: Ahn, H. S.
Allison, P. S.
Bagliesi, M. G.
Beatty, J. J.
Bigongiari, G.
Boyle, P. J.
Brandt, T. J.
Childers, J. T.
Conklin, N. B.
Coutu, S.
Duvernois, M. A.
Ganel, O.
Han, J. H.
Hyun, H. J.
Jeon, J. A.
Kim, K. C.
Lee, J. K.
Lee, M. H.
Lutz, L.
Maestro, P.
Malinin, A.
Marrocchesi, P. S.
Minnick, S. A.
Mognet, S. I.
Nam, S.
Nutter, S. L.
Park, I. H.
Park, N. H.
Seo, E. S.
Sina, R.
Swordy, S. P.
Wakely, S. P.
Wu, J.
Yang, J.
Yoon, Y. S.
Zei, R.
Zinn, S. Y.
Source :: Astropart. Phys. 30 (2008) 133-141
Publication Year :: 2008
Abstract: We present new measurements of heavy cosmic-ray nuclei at high energies per- formed during the first flight of the balloon-borne cosmic-ray experiment CREAM (Cosmic-Ray Energetics And Mass). This instrument uses multiple charge detectors and a transition radiation detector to provide the first high accuracy measurements of the relative abundances of elements from boron to oxygen up to energies around 1 TeV/n. The data agree with previous measurements at lower energies and show a relatively steep decline (~E$^-0.6$ to E$^-0.5$) at high energies. They further show the source abundance of nitrogen relative to oxygen is ~10% in the TeV/n region.<br />Comment: Accepted for publication in Astroparticle Physics

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