Spitzer Mid-Infrared Spectroscopy of Infrared Luminous Galaxies at z~2 I: the Spectra

We present the mid-infrared (MIR) spectra obtained with the Spitzer InfraRed Spectrograph (IRS) for a sample of 52 sources, selected as infrared luminous, z>1 candidates in the Extragalactic First Look Survey (XFLS). The sample selection criteria are f(24um) > 0.9mJy, nu fnu(24um)/nu fnu(8um) > 3.16 and nu fnu(24um)/nu fnu(0.7um) > 10. Of the 52 spectra, 47 (90%) produced measurable redshifts based solely on the mid-IR spectral features, with the majority (35/47=74%) at 1.5<z<3.2. Keck spectroscopy of a sub-sample (17/47) agrees with the mid-IR redshift measurements. The observed spectra fall crudely into three categories -- (1) 33% (17/52) have strong PAH emission, and are probably powered by star formation with total IR luminosity roughly a factor of 5 higher than the local starburst ULIRGs. (2) 33% (17/52) have only deep silicate absorption at 9.8um, indicative of deeply embedded dusty systems. The energetic nature of the heating sources in these systems can not be determined by these data alone. (3) The remainder 34% are mid-IR continuum dominated systems with either weak PAH emission and/or silicate absorption. This third of the sample are probably AGNs. From the silicate absorption feature, we estimate that roughly two-thirds of the sample have optical depth tau(9.8um) > 1. Their $L_{1600\AA}$ and $L_{\rm IR}$ suggest that our sample is among the most luminous and most dust enshrouded systems of its epoch . Our study has revealed a significant population of dust enshrouded galaxies at z~2, whose enormous energy output, comparable to that of quasars, is generated by AGN as well as starburst. This IR luminous population has very little overlap with sub-mm and UV-selected populations (Abridged).