A Solution to Lithium Problem by Long-Lived Stau
Abstract
We review a non-standard Big-Bang nucleosynthesis (BBN) scenario within the minimal supersymmetric standard model, and propose an idea to solve both Li and Li problems. Each problem is a discrepancy between the predicted abundance in the standard BBN and observed one. We focus on the stau, a supersymmetric partner of tau lepton, which is a long-lived charged particle when it is the next lightest supersymmetric particle and is degenerate in mass with the lightest supersymmetric particle. The long-lived stau forms a bound state with a nucleus, and provide non-standard nuclear reactions. One of those, the internal conversion process, accelerates the destruction of Be and Li, and leads to a solution to the Li problem. On the other hand, the bound state of the stau and He enhances productions of n, d, t, and Li. The over-production of Li could solve the Li problem. While, the over-productions of d and t could conflict with observations, and the relevant parameter space of the stau is strictly constrained. We therefore need to carefully investigate the stau-He bound state to find a condition of solving the Li problem. The scenario of the long-lived stau simultaneously and successfully fit the abundances of light elements (d, t, He, He, Li, and Li) and the neutralino dark matter to the observed ones. Consequently parameter space both of the stau and the neutralino is determined with excellent accuracy.
Cite
@article{arxiv.1604.04769,
title = {A Solution to Lithium Problem by Long-Lived Stau},
author = {Joe Sato and Takashi Shimomura and Masato Yamanaka},
journal= {arXiv preprint arXiv:1604.04769},
year = {2017}
}
Comments
28 pages, 12 figures. v2: references added