New tools from Infrared Space Observatory (ISO) mid-infrared spectroscopy
have recently become available to determine the power sources of dust-obscured
ultraluminous infrared galaxies (ULIRGs). We compare ISO classifications -
starburst or active galactic nucleus (AGN) - with classifications from optical
spectroscopy, and with optical/near-infrared searches for hidden broad-line
regions. The agreement between mid-infrared and optical classification is
excellent if optical LINER spectra are assigned to the starburst group. The
starburst nature of ULIRG LINERs strongly supports the suggestion that LINER
spectra in infrared-selected galaxies, rather than being an expression of the
AGN phenomenon, are due to shocks that are probably related to galactic
superwinds. Differences between ISO and optical classification provide clues on
the evolution of ULIRGs and on the configuration of obscuring dust. We find few
ISO AGN with optical HII or LINER identification, suggesting that highly
obscured AGN exist but are not typical for the ULIRG phenomenon in general.
Rather, our results indicate that strong AGN activity, once triggered, quickly
breaks the obscuring screen at least in certain directions, thus becoming
detectable over a wide wavelength range.Comment: aastex, 1 eps figure. Accepted by ApJ (Letters