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Date and Time of the Query: 2019-06-16 T00:29:18 PDT
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For refcode 2007ApJ...660.1246S:
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2007ApJ...660.1246S The Low-Mass X-Ray Binary and Globular Cluster Connection in Virgo Cluster Early-Type Galaxies: Optical Properties Gregory R. Sivakoff, Andres Jordan, Craig L. Sarazin, John P. Blakeslee, Patrick Cote, Laura Ferrarese, Adrienne M. Juett, Simona Mei, and Eric W. Peng Abstract. LMXBs form efficiently in GCs. By combining Chandra and HST ACS observations of 11 massive early-type galaxies in the Virgo Cluster, we use the most accurate identification of LMXBs and GCs to date to explore the optical properties of 270 GCs with LMXBs and 6488 GCs without detectable X-ray emission. More massive, redder, and more compact GCs are more likely to contain LMXBs. Unlike Galactic GCs, a large number of GCs with LMXBs have half-mass relaxation times >2.5 Gyr; GCs need not survive for more than five relaxation timescales to produce LMXBs. By fitting the dependence of the expected number of LMXBs per GC, {lambda}_t_, on the GC mass M, color (g-z), and half-mass radius r_h,cor_, we find that {lambda}_t_ is proportional to M^1.24+/-0.08^x10^0.9^+0.2^_-0.1_(g-z)^r^-2.2+/-0.2^_h,cor_. This rules out that the number of LMXBs per GC is linearly proportional to GC mass (99.89% confidence limit) and leads us to predict that most GCs with high X-ray luminosities contain a single LMXB. The detailed dependence of {lambda}_t_ on GC properties appears mainly due to a dependence on the encounter rate {GAMMA}_h_ and the metallicity Z, {lambda}_t_ is proportional to {GAMMA}^0.82+/-0.05^_h_Z^0.39+/-0.07^. Our analysis provides strong evidence that dynamical formation and metallicity play the primary roles in determining the presence of an LMXB in extragalactic GCs. The shallower than linear encounter rate dependence requires an explanation by theories of dynamical binary formation. A metallicity-dependent variation in the number of neutron stars and black holes per unit GC mass, effects from irradiation-induced winds, or suppression of magnetic braking in metal-poor stars may all be consistent with our abundance dependence; all three scenarios require further development. Key words: Stars: Binaries: Close, Galaxies: Elliptical and Lenticular, cD, Galaxies: Star Clusters, Galaxy: Globular Clusters: General, X-Rays: Binaries, X-Rays: Galaxies
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