The HII Galaxy Hubble Diagram Strongly Favors R h=ct over

Abstract

We continue to build support for the proposal to use HII galaxies (HIIGx) and giant extragalactic HII regions (GEHR) as standard candles to construct the Hubble diagram at redshifts beyond the current reach of Type Ia supernovae. Using a sample of 25 high-redshift HIIGx, 107 local HIIGx, and 24 GEHR, we confirm that the correlation between the emission-line luminosity and ionized-gas velocity dispersion is a viable luminosity indicator, and use it to test and compare the standard model and the R h=ct Universe by optimizing the parameters in each cosmology using a maximization of the likelihood function. For the flat model, the best fit is obtained with m= 0.40-0.09+0.09. However, statistical tools, such as the Akaike (AIC), Kullback (KIC) and Bayes (BIC) Information Criteria favor R h=ct over the standard model with a likelihood of ≈ 94.8\%-98.8\% versus only ≈ 1.2\%-5.2\%. For wCDM (the version of with a dark-energy equation of state w de p de/ de rather than w de=w=-1), a statistically acceptable fit is realized with m=0.22-0.14+0.16 and w de= -0.51-0.25+0.15 which, however, are not fully consistent with their concordance values. In this case, wCDM has two more free parameters than R h=ct, and is penalized more heavily by these criteria. We find that R h=ct is strongly favored over wCDM with a likelihood of ≈ 92.9\%-99.6\% versus only 0.4\%-7.1\%. The current HIIGx sample is already large enough for the BIC to rule out /wCDM in favor of R h=ct at a confidence level approaching 3σ.