Unveiling the active nucleus of Centaurus A

We report new Hubble Space Telescope WFPC2 and NICMOS observations of the c enter of the nearest radio galaxy Centaurus A (NGC 5128) and discuss their implications for our understanding of the active nucleus and jet. We detect the active nucleus in the near-IR (K and H) and, for the first time, in th e optical (I and V), deriving the spectral energy distribution of the nucle us from the radio to X-rays. The optical and part of the near-TR emission c an be explained by the extrapolation of the X-ray power law reddened by A(V ) similar to 14, a value consistent with other independent estimates. The 2 0 pc scale nuclear disk discovered by Schreier and colleagues is detected i n the [Fe II] lambda 1.64 mu m line and presents a morphology similar to th at observed in Pa alpha with a [Fe II]/Pa alpha ratio typical of low-ioniza tion Seyfert galaxies and LINERs. NICMOS 3 Pa alpha observations in a 50 " x 50 " circumnuclear region suggest enhanced star formation (similar to 0.3 M. yr(-1)) at the edges of the putative bar seen with ISO, perhaps due to shacks driven into the gas. The light profile, reconstructed from V, H, and K observations, shows that Centaurus A has a core profile with a resolved break at similar to 4 " and suggests a black hole mass of similar to 10(9) M.. A linear blue structure aligned with the radio/X-ray jet may indicate a channel of relatively low reddening in which dust has been swept away by t he jet.