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Deep Underground Laboratory Measurement of ^{13}C(α,n)^{16}O in the Gamow Windows of the s and i Processes. | LitMetric
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Deep Underground Laboratory Measurement of ^{13}C(α,n)^{16}O in the Gamow Windows of the s and i Processes.

B Gao T Y Jiao Y T Li H Chen W P Lin Z An L H Ru Z C Zhang X D Tang X Y Wang N T Zhang X Fang D H Xie Y H Fan L Ma X Zhang F Bai P Wang Y X Fan G Liu

Phys Rev Lett

Konkoly Observatory, Research Centre for Astronomy and Earth Sciences (CSFK), Eötvös Loránd Research Network (ELKH), Konkoly Thege Miklós út 15-17, H-1121 Budapest, Hungary.

Published: September 2022

AI Article Synopsis

  • The ^{13}C(α,n)^{16}O reaction is crucial for generating neutrons in certain stellar processes but has been difficult to study directly due to low reaction rates and interference from cosmic rays.
  • The authors conducted the first thorough direct measurement of this reaction at underground labs, covering a significant energy range (0.24 to 1.9 MeV) to improve the accuracy of previous experimental data.
  • This study reduced the uncertainty in reaction rates from 60% to 15%, providing more reliable information for understanding slow-neutron-capture processes in stars and offering the first direct alpha strength measurement for near-threshold states.

Article Abstract

The ^{13}C(α,n)^{16}O reaction is the main neutron source for the slow-neutron-capture process in asymptotic giant branch stars and for the intermediate process. Direct measurements at astrophysical energies in above-ground laboratories are hindered by the extremely small cross sections and vast cosmic-ray-induced background. We performed the first consistent direct measurement in the range of E_{c.m.}=0.24 to 1.9 MeV using the accelerators at the China Jinping Underground Laboratory and Sichuan University. Our measurement covers almost the entire intermediate process Gamow window in which the large uncertainty of the previous experiments has been reduced from 60% down to 15%, eliminates the large systematic uncertainty in the extrapolation arising from the inconsistency of existing datasets, and provides a more reliable reaction rate for the studies of the slow-neutron-capture and intermediate processes along with the first direct determination of the alpha strength for the near-threshold state.

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 Source
http://dx.doi.org/10.1103/PhysRevLett.129.132701DOI Listing

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