Nuclear symmetry energy and proton-rich reactions at intermediate energies
arXiv:1012.2921 · doi:10.1103/PhysRevC.84.014607
Abstract
Based on an isospin dependent transport model IBUU, effects of high density behavior of nuclear symmetry energy in the proton-rich reaction $^{22}$Si+$^{22}$Si at a beam energy of 400 MeV/nucleon are studied. It is found that the symmetry energy affects $Ï^{+}$ production more than $Ï^{-}$. More interestingly, comparing with neutron-rich reactions, for $Ï^{-}/Ï^{+}$ and dense matter's N/Z ratios, effects of symmetry energy in the proton-rich reaction both show contrary behaviors. The practical experiment by using the proton-rich reaction $^{22}$Si+$^{40}$Ca to study nuclear symmetry energy are also provided.
5 pages, 7 figures; title changed and two figures added. PRC, in production