Abstract
We report the discovery of a 20 kpc sized Ha emission in SDSS J083803.68+540642.0, a ringed dwarf galaxy (MV = -17.89 mag) hosting an accreting intermediate-mass black hole at z = 0.02957. Analysis of the Hubble Space Telescope images indicates that it is an early-type galaxy with a featureless low-surface brightness disk (m0 = 20.39 mag arcsec-2 in the V band) and a prominent, relatively red bulge (V I = 2.03, Re = 0.28 kpc or 0.48) that accounts for ≈81% of the total light in the I band. A circumgalactic ring of a diameter 16 kpc is also detected, with a disperse shape on its south side. The optical emission lines reveal the nucleus to be a broad-line LINER. Our MMT longslit observation indicates that the kinematics of the extended Ha emission is consistent with a rotational gaseous disk, with a mean blueshifted velocity of 162 km s-1 and mean redshifted velocity of 86 km s-1. According to our photoionization calculations, the large-scale Ha emission is unlikely to be powered by the central nucleus or by hot evolved (post-AGB) stars interspersed in the old stellar populations, but by in situ star formation; this is vindicated by the line-ratio diagnostic of the extended emission. We propose that both the ring and large-scale Ha-emitting gas are created by the tidal accretion in a collision-and then merger-with a gas-rich galaxy of a comparable mass.
Original language | English |
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Article number | 109 |
Journal | Astrophysical Journal |
Volume | 837 |
Issue number | 2 |
DOIs | |
State | Published - 10 Mar 2017 |
Keywords
- galaxies: active
- galaxies: dwarf
- galaxies: individual (SDSS J083803.68+540642.0)
- galaxies: nuclei
- galaxies: Seyfert