Explaining Baryon ≈ 0.2 Dark through the synthesis of ordinary matter from mirror matter: a more general analysis

Abstract

The emerging cosmological picture is of a spatially flat universe composed predominantly of three components: ordinary baryons (B ≈ 0.05), non-baryonic dark matter (Dark ≈ 0.22) and dark energy ( ≈ 0.7). We recently proposed that ordinary matter was synthesised from mirror matter, motivated by the argument that the observed similarity of B and Dark suggests an underlying similarity between the fundamental properties of ordinary and dark matter particles. In this paper we generalise the previous analysis by considering a wider class of effective operators that non-gravitationally couple the ordinary and mirror sectors. We find that while all considered operators imply Dark = few× B, only a subset quantitatively reproduce the observed ratio B/Dark ≈ 0.20. The 1 eV mass scale induced through these operators hints at a connection with neutrino oscillation physics.

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