Effects of axions on Nucleosynthesis in massive stars

Abstract

We investigate the effect of the axion cooling on the nucleosynthesis in a massive star with 16M by standard stellar evolution calculation. We find that the axion cooling suppresses the nuclear reactions in carbon, oxygen and silicon burning phases because of the extraction of the energy. As a result, larger amounts of the already synthesized neon and magnesium remain without being consumed to produce further heavier elements. Even in the case with the axion-photon coupling constant gaγ= 10-11 GeV-1, which is six times smaller than the current upper limit, the amount of neon and magnesium that remain just before the core-collapse supernova explosion is considerably larger than the standard value. This implies that we could give a more stringent constraint on gaγ from the nucleosynthesis of heavy elements in massive stars.