Constraints on Baryon Density from the Effective Optical Depth of High-Redshift Quasars

Abstract

We present constraints on the baryonic matter density parameter, b, within the framework of the model. Our analysis utilizes observational data on the effective optical depth from high-redshift quasars. To parameterize the photoionization rate -12, we employ a B\'ezier polynomial. Additionally, we approximate the Hubble parameter at high redshifts as H(z)≈ 100hm1/2 (1+z)3/2 km s-1 Mpc-1. Confidence regions are obtained with h=0.7010.013 and m = 0.315, optimized by the Planck mission. The best-fit values are b =0.043+0.005-0.006 and b = 0.045+0.004-0.006, corresponding to an old data set and a new data set, respectively. And we test the non-parametric form of -12, obtaining b = 0.048+0.001-0.003. These results are consistent with the findings of Planck at the 1 σ confidence level. Our findings underscore the effectiveness of quasar datasets in constraining b, eliminating the need for independent photoionization rate data. This approach provides detailed cosmic information about baryon density and the photoionization history of the intergalactic medium.