SCYON Abstract

Received on July 14 2008

Intermediate Mass Black Hole Induced Quenching of Mass Segregation in Star Clusters

AuthorsMichael Gill (1), Michele Trenti (2), M. Coleman Miller (1), Roeland van der Marel (2), Douglas Hamilton (1), and Massimo Stiavelli (2)
Affiliation(1) University of Maryland, College Park
(2) Space Telescope Science Institute
Accepted byAstrophysical Journal
Contacttrenti@stsci.edu
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Abstract

In many theoretical scenarios it is expected that intermediate-mass black holes (IMBHs, with masses M ~ 100-10000 solar masses) reside at the centers of some globular clusters. However, observational evidence for their existence is limited. Several previous numerical investigations have focused on the impact of an IMBH on the cluster dynamics or brightness profile. Here we instead present results from a large set of direct N-body simulations including single and binary stars. These show that there is a potentially more detectable IMBH signature, namely on the variation of the average stellar mass between the center and the half-light radius. We find that the existence of an IMBH quenches mass segregation and causes the average mass to exhibit only modest radial variation in collisionally relaxed star clusters. This differs from when there is no IMBH. To measure this observationally requires high resolution imaging at the level of that already available from the Hubble Space Telescope (HST) for the cores of a large sample of galactic globular clusters. With a modest additional investment of HST time to acquire fields around the half-light radius, it will be possible to identify the best candidate clusters to harbor an IMBH. This test can be applied only to globulars with a half-light relaxation time less than or equal to 1 Gyr, which is required to guarantee efficient energy equipartition due to two-body relaxation.