English

Coulomb suppression of the stellar enhancement factor

Astrophysics 2008-12-18 v1 Nuclear Experiment Nuclear Theory
Authors: G. G. Kiss , T. Rauscher , Gy. Gyürky , A. Simon , Zs. Fülöp , E. Somorjai
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Abstract

It is commonly assumed that reaction measurements for astrophysics should be preferably performed in the direction of positive Q value to minimize the impact of the stellar enhancement factor, i.e. the difference between the laboratory rate and the actual stellar rate. We show that the stellar effects can be minimized in the charged particle channel, even when the reaction Q value is negative. As a demonstration, the cross section of the astrophysically relevant 85Rb(p,n)85Sr reaction has been measured by activation between 2.16 < Ec.m. < 3.96 MeV and the astrophysical reaction rate for (p,n) as well as (n,p) is directly inferred from the data. The presented arguments are also relevant for other alpha and proton-induced reactions in the p and rp processes. Additionally, our results confirm a previously derived modification of a global optical proton potential.

Keywords

nuclear astrophysics reaction rates nuclear reactions precision measurements in physics

Cite

@article{arxiv.0809.2676,
  title  = {Coulomb suppression of the stellar enhancement factor},
  author = {G. G. Kiss and T. Rauscher and Gy. Gyürky and A. Simon and Zs. Fülöp and E. Somorjai},
  journal= {arXiv preprint arXiv:0809.2676},
  year   = {2008}
}

Comments

submitted to PRL

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