For most elements, the isotopic ratios seen in cosmic rays (CRs) are similar to those in the solar wind. The most important exception to this is ~(22)Ne/~(20)Ne where the CR value is ~ 5 times that of the solar wind. According to most recent models of nucleosynthesis, a large amount of ~(22)Ne is generated in Wolf-Rayet (WR) stars. In the winds of carbon sequence of WR stars, i.e., WC stars, the isotopic ratio ~(22)Ne/~(20)Ne can be much larger than in the solar wind. Here, we consider CRs produced by ~(22)Ne-enriched WR winds in young massive star clusters assuming the acceleration occurs from an ensemble of shock waves from the massive stars' winds. We estimate the fraction of all Galactic CRs such sources may produce for a given set of parameters.
展开▼
