Limits on thermal conduction in galaxy clusters
Abstract
We have calculated lower limits for the global effective thermal conductivity in a sample of 165 Abell clusters. We assumed that cluster X-ray luminosity is compensated by a conductive heat flux which we then compare with an upper limit to the temperature gradient inferred from the cluster temperature and radius. This gives a lower limit to the thermal conductivity and therefore to the relative suppression from the Spitzer conductivity, kappaSp. Not a single cluster requires super-Spitzer values of thermal conduction to balance the observed X-ray luminosity. The suppression coefficient f=kappa/kappaSp is clustered in a range 10-2 < f < 0.4. A weak dependence of f versus z is observed over 0 < z <0.41. Possible biases and/or selection effects are discussed.
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