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New Thermonuclear Rate of 7Li(d,n)24He relevant to the Cosmological Lithium Problem

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arxiv 2105.05470 v1 pith:3FFM7RD4 submitted 2021-05-12 astro-ph.CO

New Thermonuclear Rate of 7Li(d,n)24He relevant to the Cosmological Lithium Problem

classification astro-ph.CO
keywords ratecosmologicallithiumnucleosynthesisprimordialratesreactionabundances
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Accurate 7Li(d,n)24He thermonuclear reaction rates are crucial for precise prediction of the primordial abundances of Lithium and Beryllium and to probe the mysteries beyond fundamental physics and the standard cosmological model. However, uncertainties still exist in current reaction rates of 7Li(d,n)24He widely used in Big Bang Nucleosynthesis (BBN) simulations. In this work, we reevaluate the 7Li(d,n)24He reaction rate using the latest data on the three near-threshold 9Be excited states from experimental measurements. We present for the first time uncertainties that are directly constrained by experiments. Additionally, we take into account for the first time the contribution from the subthreshold resonance at 16.671 MeV of 9Be. We obtain a 7Li(d,n)24He rate that is overall smaller than the previous estimation by about a factor of 60 at the typical temperature of the onset of primordial nucleosynthesis. We implemented our new rate in BBN nucleosynthesis calculations, and we show that the new rates have a very limited impact on the final light element abundances in uniform density models. Typical abundance variations are in the order of 0.002%. For nonuniform density BBN models, the predicted 7Li production can be increased by 10% and the primordial production of light nuclides with mass number A>7 can be increased by about 40%. Our results confirm that the cosmological lithium problem remains a long-standing unresolved puzzle from the standpoint of nuclear physics.

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  1. Temperature-Dependent CPT Violation: Constraints from Big Bang Nucleosynthesis

    hep-ph 2026-01 unverdicted novelty 5.0

    Constraints on temperature-dependent CPT-violating electron-positron mass asymmetry b0(T) = α T² from BBN abundances of 4He, D, and Neff give α ≳ 10^{-6} GeV^{-1} for keV-scale effects at BBN.