Bayesian analysis for rotational curves with -boson stars as a dark matter component

Abstract

Using Low Brightness Surface Galaxies (LBSG) rotational curves we inferred the free parameters of -boson stars as a dark matter component. The -boson stars are numerical solutions to the non-relativistic limit of the Einstein-Klein-Gordon system, the Schr\"odinger-Poisson (SP) system. These solutions are parametrized by an angular momentum number = (N-1)/2 and an excitation number n. We perform a bayesian analysis by modifying the SimpleMC code to perform the parameter inference, for the cases with = 0, = 1 and multi-states of -boson stars. We used the Akaike information criterion (AIC), Bayesian information criterion and the Bayes factor to compare the excited state (=1) and the multi-state case with the ground state (=0) as the base model due to its simplicity. We found that the data in most galaxies in the sample favours the multi-states case and that the scalar field mass tends to be slightly bigger than the ground state case.