Los puntos clave no están disponibles para este artículo en este momento.
It has been found in previous studies that, for the Supernova Legacy Survey three-year (SNLS3) data, there is strong evidence for the redshift evolution of color-luminosity parameter. In this paper, using the three simplest dark energy models, i. e. , the -cold-dark-matter () model, the wCDM model, and the Chevallier-Polarski-Linder model, we further explore the evolution of and its effects on parameter estimation. In addition to the SNLS3 data, we also take into account the Planck distance priors data of the cosmic microwave background (CMB), as well as the latest galaxy clustering (GC) data extracted from SDSS DR7 and BOSS. We find that, for all the models, adding a parameter of can reduce ₌₈₍^2 by 36, indicating that ₁=0 is ruled out at 6 confidence levels. In other words, deviates from a constant at 6 confidence levels. This conclusion is insensitive to the dark energy models considered, showing the importance of considering the evolution of in the cosmology fits. Furthermore, it is found that varying can significantly change the fitting results of various cosmological parameters: using the SNLS3 data alone, varying yields a larger ₌ for the model; using the SNLS3+CMB+GC data, varying yields a larger ₌ and a smaller h for all the models. Moreover, we find that these results are much closer to those given by the CMB+GC data compared to the cases of treating as a constant. This indicates that considering the evolution of is very helpful for reducing the tension between supernova and other cosmological observations.
Wang et al. (Thu,) studied this question.