Looking for Intermediate-Mass Black Holes in the Globular Clusters of the Virgo Cluster
Overview
A major problem in modern astronomy is the apparent absence of Intermediate-Mass Black Holes (IMBHs). One possibility is that they lie in the centers of globular clusters, and if that were the case, one could find IMBHs using tidal disruption events (TDEs). TDEs occur when stars pass near enough to a black hole that they are disrupted, causing an observable, dramatic luminosity flare-up around the black hole. We estimate the rate of TDEs per globular cluster by assuming an empty loss cone in each globular cluster, taking into account the number density of stars and the two-body relaxation timescale. Then, using equations obtained from scientific papers, we compute an estimate for the number of TDEs that should be observable based on a three-year observational period for the NGVS survey. Based on these estimates, we find roughly 80 TDEs should occur within the three-year span, but only 5 are likely to be detected. Additionally, we model a TDE's monochromatic luminosity as a superposition of the super-Eddington wind and a multi-layered accretion disk. We find that the luminosity generally does not follow the classical t^(-5/3) curve, and in fact may have two peaks, although one is short-lived and hard to observe. These findings should serve as a baseline for future theory and observations on IMBHs.