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A direct measurement of the 17O(α,γ)21Ne reaction in inverse kinematics and its impact on heavy element production

Taggart, M. P.; Akers, C.; Laird, A. M.; Hager, U.; Ruiz, C.; Hutcheon, D. A.; Bentley, M. A.; Brown, J. R.; Buchmann, L.; Chen, A. A.; Chen, J.; Chipps, K. A.; Choplin, A.; D'Auria, J. M.; Davids, B.; Davis, C.; Diget, C. Aa; Erikson, L.; Fallis, J.; Fox, S. P.; Frischknecht, U.; Fulton, B. R.; Galinski, N.; Greife, U.; Hirschi, R.; Howell, D.; Martin, L.; Mountford, D.; Murphy, A. St J.; Ottewell, D.; Pignatari, M.; Reeve, S.; Ruprecht, G.; Sjue, S.; Veloce, L.; Williams, M.

Authors

M. P. Taggart

C. Akers

A. M. Laird

U. Hager

C. Ruiz

D. A. Hutcheon

M. A. Bentley

J. R. Brown

L. Buchmann

A. A. Chen

J. Chen

K. A. Chipps

A. Choplin

J. M. D'Auria

B. Davids

C. Davis

C. Aa Diget

L. Erikson

J. Fallis

S. P. Fox

U. Frischknecht

B. R. Fulton

N. Galinski

U. Greife

R. Hirschi

D. Howell

L. Martin

D. Mountford

A. St J. Murphy

D. Ottewell

M. Pignatari

S. Reeve

G. Ruprecht

S. Sjue

L. Veloce

M. Williams



Abstract

© 2019 The Authors During the slow neutron capture process in massive stars, reactions on light elements can both produce and absorb neutrons thereby influencing the final heavy element abundances. At low metallicities, the high neutron capture rate of 16O can inhibit s-process nucleosynthesis unless the neutrons are recycled via the 17O(α,n)20Ne reaction. The efficiency of this neutron recycling is determined by competition between the 17O(α,n)20Ne and 17O(α,γ)21Ne reactions. While some experimental data are available on the former reaction, no data exist for the radiative capture channel at the relevant astrophysical energies. The 17O(α,γ)21Ne reaction has been studied directly using the DRAGON recoil separator at the TRIUMF Laboratory. The reaction cross section has been determined at energies between 0.6 and 1.6 MeV Ecm, reaching into the Gamow window for core helium burning for the first time. Resonance strengths for resonances at 0.63, 0.721, 0.81 and 1.122 MeV Ecm have been extracted. The experimentally based reaction rate calculated represents a lower limit, but suggests that significant s-process nucleosynthesis occurs in low metallicity massive stars.

Citation

Taggart, M. P., Akers, C., Laird, A. M., Hager, U., Ruiz, C., Hutcheon, D. A., Bentley, M. A., Brown, J. R., Buchmann, L., Chen, A. A., Chen, J., Chipps, K. A., Choplin, A., D'Auria, J. M., Davids, B., Davis, C., Diget, C. A., Erikson, L., Fallis, J., Fox, S. P., …Williams, M. (2019). A direct measurement of the 17O(α,γ)21Ne reaction in inverse kinematics and its impact on heavy element production. Physics letters. B, 798, Article 134894. https://doi.org/10.1016/j.physletb.2019.134894

Journal Article Type Article
Acceptance Date Aug 23, 2019
Online Publication Date Aug 28, 2019
Publication Date Nov 10, 2019
Deposit Date Sep 17, 2019
Publicly Available Date Sep 17, 2019
Journal Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
Print ISSN 0370-2693
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 798
Article Number 134894
DOI https://doi.org/10.1016/j.physletb.2019.134894
Keywords Nuclear and High Energy Physics
Public URL https://hull-repository.worktribe.com/output/2538638
Contract Date Sep 17, 2019

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Copyright Statement
©2019 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). Funded by SCOAP3.








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