Extended Structure and Fate of the Nucleus in Henize 2-10

Abstract

We investigate the structure and nuclear region of the black hole (BH) hosting galaxy Henize2-10. Surface brightness (SB) profiles are analyzed using Magellan/Megacam g- and r-band images. Excluding the central starburst, we find a best-fit two component S\'ersic profile with n in 0.6, reff,in 260~pc, and n out 1.8, reff, out 1 kpc. Integrating out to our outer most data point (100 arc sec 4.3 kpc), we calculate Mg=-19.2 and Mr=-19.8. The corresponding enclosed stellar mass is M(103)×109 M, 3× larger than previous estimates. Apart from the central 500 pc, with blue colors and an irregular morphology, the galaxy appears to be an early-type system. The outer color is quite red, (g-r)0=0.75, suggesting a dominant old population. We study the nuclear region of the galaxy using archival Gemini/NIFS K-band adaptive optics spectroscopy and Hubble Space Telescope imaging. We place an upper limit on the BH mass of 107M from the NIFS data, consistent with that from the M BH-radio-X-ray fundamental plane. No coronal lines are seen, but a Brγ source is located at the position of the BH with a luminosity consistent with the X-ray emission. The starburst at the center of Henize 2-10 has led to the formation of several super star clusters, which are within 100 pc of the BH. We examine the fate of the nucleus by estimating the dynamical masses and dynamical friction timescales of the clusters. The most massive clusters ( 106 M) have τ dyn 200 Myr, and thus Henize 2-10 may represent a rare snapshot of nuclear star cluster formation around a pre-existing massive BH.