PAH Emission in Powerful High-Redshift Radio Galaxies
We present the mid-infrared spectra of seven of the most powerful radio-galaxies known to exist at 1.5 < z < 2.6. The radio emission of these sources is dominated by the AGN with 500 MHz luminosities in the range 10^27.8 - 10^29.1 W/Hz. The AGN signature is clearly evident in the mid-infrared...
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| creator | Rawlings, Jason Ian Seymour, Nicholas Page, Mathew De Breuck, Carlos Stern, Daniel Symeonidis, Myrto Appleton, Phil Dey, Arjun Dickinson, Mark Huynh, Minh Emeric Le Floc'h Lehnert, Matt Mullaney, James Nesvadba, Nicole Ogle, Patrick Sajina, Anna Vernet, Joel Zirm, Andrew |
| description | We present the mid-infrared spectra of seven of the most powerful radio-galaxies known to exist at 1.5 < z < 2.6. The radio emission of these sources is dominated by the AGN with 500 MHz luminosities in the range 10^27.8 - 10^29.1 W/Hz. The AGN signature is clearly evident in the mid-infrared spectra, however, we also detect polycyclic aromatic hydrocarbons emission, indicative of prodigious star formation at a rate of up to ~1000 Msun/yr. Interestingly, we observe no significant correlation between AGN power and star formation in the host galaxy. We also find most of these radio galaxies to have weak 9.7 um silicate absorption features (tau_{9.7 um} < 0.8) which implies that their mid-IR obscuration is predominantly due to the dusty torus that surrounds the central engine, rather than the host galaxy. The tori are likely to have an inhomogeneous distribution with the obscuring structure consisting of individual clouds. We estimate that these radio galaxies have already formed the bulk of their stellar mass and appear to lie at a stage in their evolution where the obscured AGN dominates the energy output of the system but star formation is also prevalent. |
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The radio emission of these sources is dominated by the AGN with 500 MHz luminosities in the range 10^27.8 - 10^29.1 W/Hz. The AGN signature is clearly evident in the mid-infrared spectra, however, we also detect polycyclic aromatic hydrocarbons emission, indicative of prodigious star formation at a rate of up to ~1000 Msun/yr. Interestingly, we observe no significant correlation between AGN power and star formation in the host galaxy. We also find most of these radio galaxies to have weak 9.7 um silicate absorption features (tau_{9.7 um} < 0.8) which implies that their mid-IR obscuration is predominantly due to the dusty torus that surrounds the central engine, rather than the host galaxy. The tori are likely to have an inhomogeneous distribution with the obscuring structure consisting of individual clouds. 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| source | Open Access: Freely Accessible Journals by multiple vendors |
| subjects | Active galactic nuclei Galactic evolution Galaxy distribution Infrared signatures Infrared spectra Occultation Polycyclic aromatic hydrocarbons Radio emission Radio galaxies Red shift Star & galaxy formation Star formation Stars & galaxies Stellar evolution Stellar mass Toruses |
| title | PAH Emission in Powerful High-Redshift Radio Galaxies |
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