Journal
ASTRONOMY & ASTROPHYSICS
Volume 384, Issue 2, Pages L11-L14Publisher
E D P SCIENCES
DOI: 10.1051/0004-6361:20020120
Keywords
galaxies : formation; galaxies : starburst; galaxies : high-redshift; galaxies : quasars : individual : RD J030117+002025; quasars : dust emission; millimeter
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We report observations of the low-luminosity z = 5.50 quasar RD J030117+002025 (RD0301 hereafter) at 250 GHz (1.20 mm) using the Max-Planck Millimeter Bolometer (MAMBO) array at the IRAM 30-meter telescope. The quasar was detected with a 1.2 mm flux density of 0.87 +/- 0.20 mJy. The lack of detectable 1.4 GHz radio emission indicates that the millimeter emission is of thermal nature, making RD0301 the most distant dust-emission source known. When matching a 50 K grey body thermal far-infrared (FIR) spectrum to the observed millimeter flux we imply a FIR luminosity approximate to4 x 10(12) L-circle dot, which is comparable to the quasar's optical luminosity. If the FIR luminosity arises from massive star formation, the implied star formation rate would be similar to600 M-circle dot yr(-1), comparable to that of the starburst galaxies which dominate the average star formation and FIR emission in the early Universe. The FIR luminosity of RD0301 is close to the average of that found in optically far more luminous high-redshift quasars. The comparably high millimeter to optical brightness ratio of RD0301 is further evidence for that there is no strong correlation between the optical and millimeter brightness of high-redshift quasars, supporting the idea that in high-redshift quasars the dust is not heated by the AGN, but by starbursts.
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