We report the discovery of broad Mg II emission from the high-redshift
radio galaxy 3C 265 (z = 0.81). We detect the broad line in the nucle
ar spectrum and in the spatially extended galaxian component, both nea
r the nucleus and in the spectrum of an off-nuclear knot located 31 kp
c southeast of the nucleus of the galaxy. These data provide strong su
pport for the simplest form of the unification hypothesis, that radio
galaxies are quasars whose optical radiation is directed in the plane
of the sky rather than into our line of sight. These data also strongl
y support the scattering model for the alignment of the UV continuum e
mission with the radio axis. In 3C 265, if the axis of the anisotropic
ally emitted UV continuum radiation is identified with the major axis
of the radio source, then the observed rest frame UV continuum emissio
n implies that the opening angle of the radiation cone is large (half
angle approximate to 45 degrees). We also derive a mass estimate of 8
x 10(10) M. for the central region of 3C 265 from its rotation curve.
The implied mass-to-light ratio is low (M/L similar to 2), and suggest
s that a significant fraction of the rest frame UV continuum emission
from this galaxy is dominated by reprocessed radiation from the buried
active galactic nucleus. Finally, we detect the Ca II lambda 3933 K l
ine in absorption in the integrated spectrum of 3C 265. This provides
direct spectroscopic evidence for the existence of stars in a high-red
shift radio galaxy.