Is there a black hole in NGC 4382?

Abstract

We present HST STIS observations of the galaxy NGC 4382 (M85) and axisymmetric models of the galaxy to determine mass-to-light ration (M/L, V-band) and central black hole mass (MBH). We find M/L = 3.74 +/- 0.1 (solar units) and MBH = 1.3 (+5.2, -1.2) × 107 Msun at an assumed distance of 17.9 Mpc, consistent with no black hole. The upper limit, MBH < 9.6 × 107 Msun (2σ) or MBH < 1.4 × 108 Msun (3σ) is consistent with the current M-σ relation, which predicts MBH = 8.8 × 107 Msun at σe = 182 km/s, but low for the current M-L relation, which predicts MBH = 7.8 × 108 Msun at LV = 8.9 × 1010 Lsun,V. HST images show the nucleus to be double, suggesting the presence of a nuclear eccentric stellar disk, in analogy to the Tremaine disk in M31. This conclusion is supported by the HST velocity dispersion profile. Despite the presence of this non-axisymmetric feature and evidence of a recent merger, we conclude that the reliability of our black hole mass determination is not hindered. The inferred low black hole mass may explain the lack of nuclear activity.