We use Herschel-PACS far-infrared (IR) data, combined with previous multiband information and mid-IR spectra, to properly account for the presence of an active nucleus and constrain its energetic contribution in luminous IR sources at z˜ 2. The sample is composed of 24 sources in the GOODS-South field, with typical IR luminosity of 10^12 L⊙. Data from the 4 Ms Chandra X-ray imaging in this field are also used to identify and characterize active galactic nucleus (AGN) emission. We reproduce the observed spectral energy distribution (SED), decomposed into a host-galaxy and an AGN component. A smooth-torus model for circumnuclear dust is used to account for the direct and reprocessed contribution from the AGN. We confirm that galaxies with typical L(8-1000 micron) at z˜ 2 are powered predominantly by star formation. An AGN component is present in nine objects (˜35 per cent of the sample) at the 3σ confidence level, but its contribution to the 8-1000 micron emission accounts for only ˜5 per cent of the energy budget. The AGN contribution rises to ˜23 per cent over the 5-30 micron range (in agreement with Spitzer IRS results) and to ˜60 per cent over the narrow 2-6 micron range. The presence of an AGN is confirmed by X-ray data for three (out of nine) sources, with X-ray spectral analysis indicating the presence of significant absorption, i.e. NH˜ 10^23-10^24 cm-2. An additional source shows indications of obscured AGN emission from X-ray data. The comparison between the mid-IR-derived X-ray luminosities and those obtained from X-ray data suggests that obscuration is likely present also in the remaining six sources that harbour an AGN according to the SED-fitting analysis.
Pozzi F., Vignali C., Gruppioni C., Feltre A., Fritz J., Fadda D., et al. (2012). The AGN content in luminous IR galaxies at z~2 from a global SED analysis including Herschel data. MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 423, 1909-1920 [10.1111/j.1365-2966.2012.21015.x].
The AGN content in luminous IR galaxies at z~2 from a global SED analysis including Herschel data
POZZI, FRANCESCA;VIGNALI, CRISTIAN;CIMATTI, ANDREA;DELVECCHIO, IVAN;
2012
Abstract
We use Herschel-PACS far-infrared (IR) data, combined with previous multiband information and mid-IR spectra, to properly account for the presence of an active nucleus and constrain its energetic contribution in luminous IR sources at z˜ 2. The sample is composed of 24 sources in the GOODS-South field, with typical IR luminosity of 10^12 L⊙. Data from the 4 Ms Chandra X-ray imaging in this field are also used to identify and characterize active galactic nucleus (AGN) emission. We reproduce the observed spectral energy distribution (SED), decomposed into a host-galaxy and an AGN component. A smooth-torus model for circumnuclear dust is used to account for the direct and reprocessed contribution from the AGN. We confirm that galaxies with typical L(8-1000 micron) at z˜ 2 are powered predominantly by star formation. An AGN component is present in nine objects (˜35 per cent of the sample) at the 3σ confidence level, but its contribution to the 8-1000 micron emission accounts for only ˜5 per cent of the energy budget. The AGN contribution rises to ˜23 per cent over the 5-30 micron range (in agreement with Spitzer IRS results) and to ˜60 per cent over the narrow 2-6 micron range. The presence of an AGN is confirmed by X-ray data for three (out of nine) sources, with X-ray spectral analysis indicating the presence of significant absorption, i.e. NH˜ 10^23-10^24 cm-2. An additional source shows indications of obscured AGN emission from X-ray data. The comparison between the mid-IR-derived X-ray luminosities and those obtained from X-ray data suggests that obscuration is likely present also in the remaining six sources that harbour an AGN according to the SED-fitting analysis.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
