Cosmic transparency and acceleration

Abstract

In this paper, by considering an absorption probability independent of photon wavelength, we show that current type Ia supernovae (SNe Ia) and gamma ray burst (GRBs) observations plus high-redshift measurements of the cosmic microwave background (CMB) radiation temperature support cosmic acceleration regardless of the transparent-universe assumption. Two flat scenarios are considered in our analyses: the model and a kinematic model. We consider τ(z)=2(1+z), where τ(z) denotes the opacity between an observer at z=0 and a source at z. This choice is equivalent to deforming the cosmic distance duality relation as DLD-1A = (1 + z)2+ and, if the absorption probability is independent of photon wavelength, the CMB temperature evolution law is TCMB(z)=T0(1+z)1+2/3 . By marginalizing on the parameter, our analyses rule out a decelerating universe at 99.99 \% c.l. for all scenarios considered. Interestingly, by considering only SNe Ia and GRBs observations, we obtain that a decelerated universe indicated by ≤ 0.33 and q0 > 0 is ruled out around 1.5σ c.l. and 2σ c.l., respectively, regardless of the transparent-universe assumption.