Resonance excitations in \(^7\)Be(d,p)\(^8\)Be\(^\ast\) to address the cosmological lithium problem

The anomaly in lithium abundance is a well-known unresolved problem in nuclear astrophysics. A recent revisit to the problem tried the avenue of resonance enhancement to account for the primordial \(^7\)Li abundance in standard big-bang nucleosynthesis (BBN). Prior measurements of the \(^7\)Be(d,p)\...

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Bibliographic Details
Published in:arXiv.org 2022-06
Main Authors: Ali, Sk M, Gupta, D, Kundalia, K, Saha, Swapan K, Tengblad, O, Ovejas, J D, Perea, A, Martel, I, Cederkall, J, Park, J, Szwec, S
Format: Article
Language:English
Subjects:
Astrophysics
Big bang cosmology
Excitation
Lithium isotopes
Nuclear astrophysics
Nuclear fusion
Nuclei (nuclear physics)
Q values (nuclear physics)
Resonance
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Summary:The anomaly in lithium abundance is a well-known unresolved problem in nuclear astrophysics. A recent revisit to the problem tried the avenue of resonance enhancement to account for the primordial \(^7\)Li abundance in standard big-bang nucleosynthesis (BBN). Prior measurements of the \(^7\)Be(d,p)\(^8\)Be* reaction could not account for the individual contributions of the different excited states involved, particularly at higher energies close to the Q-value of the reaction. We carried out an experiment at HIE-ISOLDE, CERN to study this reaction at E\(_{cm}\) = 7.8 MeV, populating excitations up to 22 MeV in \(^8\)Be for the first time. The angular distributions of the several excited states have been measured and the contributions of the higher excited states in the total cross section at the relevant big-bang energies were obtained by extrapolation to the Gamow window using the TALYS code. The results show that by including the contribution of the 16.63 MeV state, the maximum value of the total S-factor inside the Gamow window comes out to be 167 MeV b as compared to earlier estimate of 100 MeV b. However, this still does not account for the lithium discrepancy.
ISSN:2331-8422
DOI:10.48550/arxiv.2206.14563