Takeru K. Suzuki, Susumu Inoue
Published 2003-12-22Version 1
The energy dissipated by virialization shocks during hierarchical structure formation of the Galaxy can exceed that injected by concomitant supernova (SN) explosions. Cosmic rays (CRs) accelerated by such shocks may therefore dominate over SNe in the production of $^6$Li through $\alpha + \alpha$ fusion without co-producing Be and B. This process can give a more natural account of the observed $^6$Li abundance in metal-poor stars compared to standard SN CR scenarios. Future searches for correlations between the $^6$Li abundance and the kinematic properties of halo stars may constitute an important probe of how the Galaxy and its halo formed. Furthermore, $^6$Li may offer interesting clues to some fundamental but currently unresolved issues in cosmology and structure formation on sub-galactic scales.
Comments: 4 pages including 1 figure, will be in PASA (a talk at Galactic ChemoDynamics V, Melbourne Australia, July 2003)
Can Virialization Shocks be Detected Around Galaxy Clusters Through the Sunyaev-Zel'dovich Effect?
Cosmic ray production in supernova remnants including reacceleration: the secondary to primary ratio
Cosmic Ray production of Beryllium and Boron at high redshift
