Starburst activity in the host galaxy of the z=2.58 quasar J1409+5628

Abstract

We report the detection of CO emission from the optically luminous, radio-quiet quasar J140955.5+562827, at a redshift zCO =2.583. We also present VLA continuum mapping results and VLBA high spatial resolution observations at 1.4 GHz. Both the CO(3-2) and CO(7-6) emission lines are detected using the IRAM Plateau de Bure interferometer. The 3-2/7-6 line luminosity ratio is about 1/3 indicating the presence of warm and dense molecular gas with an estimated mass of 6x1010 Msun. The infrared-to-CO luminosity ratio is LFIR/L'CO(1-0) ≈ 500 Lsun (Kkms-1 pc2)-1,comparable with values found for other high-z sources where CO line emission is seen. J1409+5628 is detected using the VLA with a 1.4 GHz rest-frame luminosity density of 4.0x1025 W Hz-1. The radio to far-infrared ratio, q, has a value of 2.0 which is consistent with the values found in star forming galaxies. At the 30 mas resolution of the VLBA, J1409+5628 is not detected with a 4 sigma upper limit to the surface brightness of 0.29 mJy beam-1. This implies a limit to the intrinsic brightness temperature of 2x105 K at 8 GHz, typical for nuclear starbursts and two or more orders of magnitude weaker than typical radio-loud active galactic nuclei. Both the properties of the CO line emission and the radio emission from J1409+5628 are therefore consistent with those expected for a star forming galaxy. In J1409+5628 young massive stars are the dominant source of dust heating, accounting for most of the infrared luminosity, and the massive reservoir of molecular gas can sustain the star formation rate of a few 1000 yr-1 implied by the far-infrared luminosity for about 10 million years.

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