Big-Bang Nucleosynthesis on a bubble universe nucleated in Kerr-AdS5 Black Hole

Abstract

We present the Big-Bang Nucleosynthesis (BBN) simulation with a bubble universe scenario around a rotating black hole (BH) in Kerr-AdS5 spacetime to explain recently updated observations of light elements such as the primordial helium abundance. In this scenario, the geometry of the 4D-early Universe is described as a vacuum bubble that undergoes quasi-de Sitter expansion in Kerr-AdS5 spacetime. We find that the BH mass and spin parameter, which show an anti-correlation against the total radiation, are important to resolve the 4 He anomaly. The present results provide clues to finding a connection between the observed results of light-element nucleosynthesis and the scenario of the 4D-bubble universe in AdS5 spacetimes.