研究室での元素生成で中性子星への理解が深まる(Element creation in the lab deepens understanding of neutron stars)

2023-05-23 オークリッジ国立研究所(ORNL)

＜関連情報＞

• https://www.ornl.gov/news/element-creation-lab-deepens-understanding-neutron-stars
• https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.130.212701

加速器型中性子星における水素とヘリウムの混合燃焼の34Ar(α,p)37K反応断面積を制約する最初の直接測定結果 First Direct Measurement Constraining the 34Ar(α,p)37K Reaction Cross Section for Mixed Hydrogen and Helium Burning in Accreting Neutron Stars

J. Browne et al. (JENSA Collaboration)
Physical Review Letters  Published 22 May 2023
DOI:https://doi.org/10.1103/PhysRevLett.130.212701

ABSTRACT

The rate of the final step in the astrophysical αp process, the ³⁴Ar(α,p)³⁷K reaction, suffers from large uncertainties due to a lack of experimental data, despite having a considerable impact on the observable light curves of x-ray bursts and the composition of the ashes of hydrogen and helium burning on accreting neutron stars. We present the first direct measurement constraining the ³⁴Ar(α,p)³⁷K reaction cross section, using the Jet Experiments in Nuclear Structure and Astrophysics gas jet target. The combined cross section for the ³⁴Ar,Cl(α,p)³⁷K,Ar reaction is found to agree well with Hauser-Feshbach predictions. The ³⁴Ar(α,2p)³⁶Ar cross section, which can be exclusively attributed to the ³⁴Ar beam component, also agrees to within the typical uncertainties quoted for statistical models. This indicates the applicability of the statistical model for predicting astrophysical (α,p) reaction rates in this part of the αp process, in contrast to earlier findings from indirect reaction studies indicating orders-of-magnitude discrepancies. This removes a significant uncertainty in models of hydrogen and helium burning on accreting neutron stars.