High Sensitivity Array Observations of the z = 4.4 QSO BRI 1335-0417

Abstract

We present sensitive phase-referenced VLBI results on the radio continuum emission from the z=4.4 QSO BRI 1335--0417. The observations were carried out at 1.4 GHz using the High Sensitivity Array (HSA). Our sensitive VLBI image at 189 × 113 mas (1.25 × 0.75 kpc) resolution shows continuum emission in BRI 1335--0417 with a total flux density of 208 46 μJy, consistent with the flux density measured with the VLA. The size of the source at FWHM is 255 × 138 mas (1.7 × 0.9 kpc) and the derived intrinsic brightness temperature is 3.5× 104 K. No continuum emission is detected at the full VLBI resolution (32 × 7 mas, 211 × 46 pc), with a 4σ point source upper limit of 34 μJy beam-1, or an upper limit to the intrinsic brightness temperature of 5.6× 105 K. The highest angular resolution with at least a 4.5σ detection of the radio continuum emission is 53 × 27 mas (0.35 × 0.18 kpc). At this resolution, the image shows a continuum feature in BRI 1335--0417 with a size of 64 × 35 mas (0.42 × 0.23 kpc) at FWHM, and intrinsic brightness temperature of 2× 105 K. The extent of the observed continuum sources at 1.4 GHz and the derived brightness temperatures show that the radio emission (and thus presumably the far-infrared emission) in BRI 1335--0417 is powered by a major starburst, with a massive star formation rate of order a few thousand M yr-1. Moreover, the absence of any compact high-brightness temperature source suggests that there is no radio-loud AGN in this z=4.4$ QSO.