Testing the Distance-Duality Relation with Galaxy Clusters and Type Ia Supernovae

Abstract

In this letter we propose a new and model-independent cosmological test for the distance-duality (DD) relation, η=DL(z)(1+z)-2/DA(z)=1, where DL and DA are, respectively, the luminosity and angular diameter distances. For DL we consider two sub-samples of SNe type Ia taken from Constitution data (2009) whereas DA distances are provided by two samples of galaxy clusters compiled by De Fillipis et al. (2005) and Bonamente et al. (2006) by combining Sunyaev-Zeldovich effect (SZE) and X-ray surface brightness. The SNe Ia redshifts of each sub-sample were carefully chosen to coincide with the ones of the associated galaxy cluster sample ( z<0.005) thereby allowing a direct test of DD relation. Since for very low redshifts, DA(z) ≈eq DL(z), we have tested the DD relation by assuming that η is a function of the redshift parametrized by two different expressions: η(z) = 1 + η0z and η(z) = 1 + η0z/(1+z), where η0 is a constant parameter quantifying a possible departure from the strict validity of the reciprocity relation (η0=0). In the best scenario (linear parametrization) we obtain η0 = -0.28+ 0.44- 0.44 (2σ, statistical + systematic errors) for de Fillipis et al. sample (eliptical geometry), a result only marginally compatible with the DD relation. However, for Bonamente et al. sample (spherical geometry) the constraint is η0 = -0.42+ 0.34- 0.34 (3σ, statistical + systematic errors) which is clearly incompatible with the duality-distance relation.