We present UV spectra of a small sample of high redshift active galaxies: t
he hyperluminous, gravitationally lensed system SMM J02399-0136 (z =2.8) an
d three powerful radio galaxies (z similar to 2.5).
Extended continuum and emission lines are detected in all objects. The thre
e radio galaxies present typical spectra with dominant Ly alpha and weaker
CIV lambda 1550, HeII lambda 1640 and CIII lambda 1909. The spectrum of SMM
J02399-0136 is strikingly different, showing relatively weak Ly alpha and
HeII and strong NV lambda 1240 relative to the C lines.
We find that the weakness of HeII can be explained if the intermediate dens
ity narrow line region(n,similar to 10(5-6) cm(-3)) dominates the emission
line spectrum, rather than the more extended low density gas (n less than o
r equal to 100 cm(-3)). The line ratios of MRC2025-218 suggest that this is
also the case in this object.
MRC2025-218 and SMM J02399-0136 show the largest NV/HeII and NV/CIV values
found in high redshift radio galaxies. The failure of solar abundance model
s to explain these line ratios and studies of metal abundances in high reds
hift quasars and radio galaxies suggest that nitrogen is overabundant in th
e ionized gas of these objects. Alternative possibilities which we discuss
include NV emission from the broad line region and differential amplificati
on by a gravitational lens.
We report the discovery of a PCygni profile in the CIV line in the spectrum
of MRC2025-218. We detect also CII lambda 1334.5 in absorption and PCygni
profiles for the lines SiIV lambda 1393.8,1402.8. We do not detect any pure
ly photospheric stellar lines. The nature of the absorption features is not
clear. It could be due to stars or an associated absorption line system.