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A new tension in the cosmological model from primordial deuterium?

Cyril Pitrou, A. Coc, Jean–Philippe Uzan, Elisabeth Vangioni

2021Monthly Notices of the Royal Astronomical Society102 citationsDOIOpen Access PDF

Abstract

ABSTRACT Recent measurements of the D(p,γ)3He nuclear reaction cross-section and of the neutron lifetime, along with the reevaluation of the cosmological baryon abundance from cosmic microwave background (CMB) analysis, call for an update of abundance predictions for light elements produced during the big-bang nucleosynthesis (BBN). While considered as a pillar of the hot big-bang model in its early days, BBN constraining power mostly rests on deuterium abundance. We point out a new ≃1.8σ tension on the baryonic density, or equivalently on the D/H abundance, between the value inferred on one hand from the analysis of the primordial abundances of light elements and, on the other hand, from the combination of CMB and baryonic oscillation data. This draws the attention on this sector of the theory and gives us the opportunity to reevaluate the status of BBN in the context of precision cosmology. Finally, this paper presents an upgrade of the BBN code primat.

Topics & Concepts

PhysicsCosmic microwave backgroundBig Bang nucleosynthesisCosmologyBig Bang (financial markets)AstrophysicsBaryonNucleosynthesisContext (archaeology)Abundance (ecology)Abundance of the chemical elementsCosmic background radiationDeuteriumNuclear physicsGalaxyFisheryPaleontologyBiologyQuantum mechanicsFinanceAnisotropyEconomicsSupernovaCosmology and Gravitation TheoriesDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studies
A new tension in the cosmological model from primordial deuterium? | Litcius