RELATIVE COMPOSITION AND ENERGY SPECTRA OF LIGHT NUCLEI IN COSMIC RAYS: RESULTS FROM AMS-01

M. Aguilar,J. Alcaraz,J. Allaby,B. Alpat,G. Ambrosi,H. Anderhub,L. Ao, A. Arefiev,L. Arruda,P. Azzarello,M. Basile,F. Barao,G. Barreira,A. Bartoloni,R. Battiston,R. Becker,U. Becker,L. Bellagamba,P. Bene,J. Berdugo,P. Berges,B. Bertucci,A. Biland,V. Bindi,G. Boella,M. Boschini,M. Bourquin,G. Bruni,M. Buenerd,J. D. Burger,W. J. Burger,X. D. Cai,P. Cannarsa,M. Capell, D. Casadei,J. Casaus,G. Castellini,I. Cernuda,Y. H. Chang,H. F. Chen,H. S. Chen,Z. G. Chen,N. A. Chernoplekov,T. H. Chiueh, Y. Y. Choi,F. Cindolo,V. Commichau,A. Contin, E. Cortina-Gil,D. Crespo,M. Cristinziani,T. S. Dai,C. dela Guia,C. Delgado,S. Di Falco,L. Djambazov,I. D'Antone,Z. R. Dong,M. Duranti,J. Engelberg,F. J. Eppling,T. Eronen,P. Extermann,J. Favier,E. Fiandrini,P. H. Fisher, G. Fluegge,N. Fouque,Y. Galaktionov,M. Gervasi,F. Giovacchini,P. Giusti,D. Grandi,O. Grimm,W. Q. Gu, S. Haino,K. Hangarter,A. Hasan,V. Hermel,H. Hofer,W. Hungerford,M. Ionica,M. Jongmanns,K. Karlamaa,W. Karpinski,G. Kenney,D. H. Kim,G. N. Kim, K. S. Kim,T. Kirn,A. Klimentov,R. Kossakowski,A. Kounine,V. Koutsenko,M. Kraeber,G. Laborie, T. Laitinen,G. Lamanna,G. Laurenti,A. Lebedev,C. Lechanoine-Leluc,M. W. Lee,S. C. Lee,G. Levi,C. H. Lin,H. T. Liu,G. Lu,Y. S. Lu, K. Luebelsmeyer,D. Luckey,W. Lustermann,C. Mana,A. Margotti,F. Mayet,R. R. McNeil,M. Menichelli,A. Mihul,A. Mujunen,A. Oliva,F. Palmonari,H. B. Park,W. H. Park,M. Pauluzzi,F. Pauss,R. Pereira,E. Perrin,A. Pevsner,F. Pilo,M. Pimenta,V. Plyaskin,V. Pojidaev,M. Pohl,N. Produit,L. Quadrani,P. G. Rancoita,D. Rapin,D. Ren,Z. Ren,M. Ribordy,J. P. Richeux,E. Riihonen,J. Ritakari,S. Ro,U. Roeser,R. Sagdeev,D. Santos,G. Sartorelli,C. Sbarra,S. Schael,A. Schultz von Dratzig,G. Schwering,E. S. Seo,J. W. Shin,E. Shoumilov,V. Shoutko,T. Siedenburg,R. Siedling,D. Son,T. Song,F. R. Spada,F. Spinella,M. Steuer,G. S. Sun,H. Suter,X. W. Tang,Samuel C. C. Ting,S. M. Ting,N. Tomassetti,M. Tornikoski,J. Torsti, J. Truemper,J. Ulbricht,S. Urpo,E. Valtonen,J. Vandenhirtz,E. Velikhov,B. Verlaat, I. Vetlitsky,F. Vezzu,J. P. Vialle,G. Viertel,D. Vite,H. Von Gunten,S. Waldmeier Wicki,W. Wallraff, J. Z. Wang,K. Wiik,C. Williams,S. X. Wu,P. C. Xia,S. Xu,Z. Z. Xu,J. L. Yan,L. G. Yan,C. G. Yang,J. Yang,M. Yang,S. W. Ye,H. Y. Zhang,Z. P. Zhang,D. X. Zhao,F. Zhou,Y. Zhou,G. Y. Zhu,W. Z. Zhu,H. L. Zhuang, A. Zichichi,B. Zimmermann,P. Zuccon

Astrophysical journal/The Astrophysical journal（2010）

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摘要

Measurement of the chemical and isotopic composition of cosmic rays is essential for the precise understanding of their propagation in the galaxy. While the model parameters are mainly determined using the B/C ratio, the study of extended sets of ratios can provide stronger constraints on the propagation models. In this paper, the relative abundances of light-nuclei lithium, beryllium, boron, and carbon are presented. The secondary-to-primary ratios Li/C, Be/C, and B/C have been measured in the kinetic energy range 0.35–45 GeV nucleon−1. The isotopic ratio 7Li/6Li is also determined in the magnetic rigidity interval 2.5–6.3 GV. The secondary-to-secondary ratios Li/Be, Li/B, and Be/B are also reported. These measurements are based on the data collected by the Alpha Magnetic Spectrometer AMS-01 during the STS-91 space shuttle flight in 1998 June. Our experimental results are in substantial agreement with other measurements, where they exist. We describe our light-nuclei data with a diffusive-reacceleration model. A 10%–15% overproduction of Be is found in the model predictions and can be attributed to uncertainties in the production cross-section data.

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acceleration of particles,cosmic rays,nuclear reactions, nucleosynthesis, abundances,space vehicles

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