Spectroscopy of 7 Radio-Loud QSOs at 2<z<6: Giant Lyman-alpha Nebulae Accreting onto Host Galaxies

Abstract

We performed long-slit optical spectroscopy (GTC-OSIRIS) of 6 radio-loud QSOs at redshifts 2<z<3, known to have giant ( 50-100 kpc) Lyman-α emitting nebulae, and detect extended Lyman-α emission for 4, with surface brightness 10-16 ergs cm-2s-1arcsec-2 and line width FWHM 400-1100 (mean 863) km s-1. We also observed the z 5.9 radio-loud QSO, SDSS J2228+0110, and find evidence of a ≥ 10 kpc extended Lyman-α emission nebula, a new discovery for this high-redshift object. Spatially-resolved kinematics of the 5 nebulae are examined by fitting the Lyman-α wavelength at a series of positions along the slit. We found the line-of-sight velocity (v) profiles to be relatively flat. However, 3 of the nebulae appear systematically redshifted by 250-460 km s-1 relative to the Lyman-α line of the QSO (with no offset for the other two), which we argue is evidence for infall. One of these (Q0805+046) had a small ( 100 km s-1) velocity shift across its diameter and a steep gradient at the centre. Differences in line-of-sight kinematics between these 5 giant nebulae and similar nebulae associated with high-redshift radio galaxies (which can show steep velocity gradients) may be due to an orientation effect, which brings infall/outflow rather than rotation into greater prominence for the sources observed `on-axis' as QSOs.