We measure the large-scale cross-correlation of quasars with the Ly forest absorption
in redshift space, using 60000 quasar spectra from Data Release 9 (DR9) of the
Baryon Oscillation Spectroscopic Survey (BOSS). The cross-correlation is detected over a
wide range of scales, up to comoving separations r of 80 h−1Mpc. For r > 15 h−1Mpc, we
show that the cross-correlation is well fitted by the linear theory prediction for the mean
overdensity around a quasar host halo in the standard CDM model, with the redshift distortions
indicative of gravitational evolution detected at high confidence. Using previous
determinations of the Ly forest bias factor obtained from the Ly autocorrelation, we infer
the quasar bias factor to be bq = 3.64+0.13
−0.15 at a mean redshift z = 2.38, in agreement with
previous measurements from the quasar auto-correlation. We also obtain a new estimate of
the Ly forest redshift distortion factor, F = 1.1 ± 0.15, slightly larger than but consistent
with the previous measurement from the Ly forest autocorrelation. The simple linear
model we use fails at separations r < 15 h−1Mpc, and we show that this may reasonably
be due to the enhanced ionization due to radiation from the quasars. We also provide the
expected correction that the mass overdensity around the quasar implies for measurements
of the ionizing radiation background from the line-of-sight proximity effect.