Formation of "Blanets" from Dust Grains around the Supermassive Black Holes in Galaxies

Abstract

In Wada, Tsukamoto, and Kokubo (2019), we proposed for the first time that a new class of planets, "blanets" (i.e., black hole planets), can be formed around supermassive black holes (SMBHs) in the galactic center. Here, we investigate the dust coagulation processes and physical conditions of the blanet formation outside the snow line (rsnow several parsecs) in more detail, especially considering the effect of the radial advection of the dust aggregates. We found that a dimensionless parameter α = vt2/cs2, where vt is the turbulent velocity and cs is the sound velocity, describing the turbulent viscosity should be smaller than 0.04 in the circumnuclear disk, to prevent the destruction of the aggregates due to collisions. The formation timescale of blanets τGI at rsnow is, τGI 70-80 Myr for α = 0.01-0.04 and MBH = 106 M. The mass of the blanets ranges from 20 ME to 3000 ME in r < 4 pc for α = 0.02 (ME is the Earth mass), which is in contrast with 4 ME-6 ME for the case without the radial advection. Our results suggest that blanets could be formed around relatively low-luminosity AGNs (Lbol 1042 erg s-1) during their lifetime ( 108 yr).