James Webb Space Telescope Feed Post

Harvard ADS: Quasi-stars as a Means of Rapid Black Hole Growth in the Early Universe

Paper abstract: JWST observations demonstrate that supermassive black holes (SMBHs) exist by redshifts z \gtrsim 10, providing further evidence for "direct collapse" black hole (BH) formation, whereby massive (~ 10^{3-5} M_{\odot}) SMBH seeds are generated within a few Myr as a byproduct of the rapid inflow of gas into the centers of protogalaxies. Here we analyze the intermediate "quasi-star" phase that accompanies some direct collapse models, during which a natal BH accretes mass from and energetically sustains (through accretion) an overlying gaseous envelope. We argue that previous estimates of the maximum BH mass that can be reached during this stage, ~ 1\% of the total quasi-star mass, are unphysical, and arise from underestimating the efficiency with which energy can be transported outward from regions close to the BH. We construct new quasi-star models that consist of an inner, "saturated-convection" region (which conforms to a convection-dominated accretion flow near the BH) matched to an outer, adiabatic envelope. These solutions exist up to a BH mass of ~ 60\% the total quasi-star mass, at which point the adiabatic envelope contains only 2\% of the mass (with the remaining ~ 38\% in the saturated-convection region), and this upper limit is reached within a time of 20-40 Myr. We conclude that quasi-stars remain a viable route for producing SMBHs at large redshifts, consistent with recent JWST observations.