On the Uncertainty in X-Ray Cluster Mass Estimates

We study the uncertainty in galaxy cluster mass estimates derived from X-ray data assuming hydrostatic equilibrium (HE) for the intra cluster gas. Using a Monte-Carlo procedure we generate a general class of mass models allowing very massive clusters. We then compute the corresponding temperature profiles via the HE equation and compare them to observational data on some clusters. We find several massive clusters that pass the observational constraints, with integrated masses varying in a quite wide range. The resulting accuracy of the mass estimates is rather poor, larger than what is generally claimed. We argue that the tight constraints on cluster masses previously obtained come from the fact that a too restricted class of mass density profiles has been investigated so far. Applying our procedure to Perseus then Coma, we find that the improvement of the observational constraints results in a quite modest improvement in the accuracy of the mass estimate. For Coma, using the best current available data, we end up with a factor of two of uncertainty in the mass within the Abell radius. This uncertainty rapidly increases at further radius.