Constraints on the Asymptotic Baryon Fractions of Galaxy Clusters at Large Radii

Abstract

While X-ray measurements have so far revealed an increase in the volume-averaged baryon fractions fb(r) of galaxy clusters with cluster radii r, fb(r) should asymptotically reach a universal value fb(∞)=fb, provided that clusters are representative of the Universe. In the framework of hydrostatic equilibrium for intracluster gas, we have derived the necessary conditions for fb(∞)=fb: The X-ray surface brightness profile described by the β model and the temperature profile approximated by the polytropic model should satisfy γ≈2(1-1/3β) and γ≈1+1/3β for β<1 and β>1, respectively, which sets a stringent limit to the polytropic index: γ<4/3. In particular, a mildly increasing temperature with radius is required if the observationally fitted β parameter is in the range 1/3<β<2/3. It is likely that a reliable determination of the universal baryon fraction can be achieved in the small β clusters because the disagreement between the exact and asymptotic baryon fractions for clusters with β>2/3 breaks down at rather large radii (30rc) where hydrostatic equilibrium has probably become inapplicable. We further explore how to obtain the asymptotic value fb(∞) of baryon fraction from the X-ray measurement made primarily over the finite central region of a cluster. We demonstrate our method using a sample of 19 strong lensing clusters, which enables us to place a useful constraint on fb(∞): 0.0940.035 ≤ fb(∞) ≤ 0.410.18. An optimal estimate of fb(∞) based on three cooling flow clusters with β<1/2 in our lensing cluster sample yields <fb(∞)> = 0.1420.007 or M = 0.350.09.

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