The hosts of luminous z similar to 2 quasars evolve into today%26apos;s massive elliptical galaxies. Current theories predict that the circumgalactic medium (CGM) of these massive, dark matter halos (M-DM similar to 10(12.5) M-circle dot) should be dominated by a T similar to 10(7) K virialized plasma. We test this hypothesis with observations of 74 close-projected quasar pairs, using spectra of the background QSO to characterize the CGM of the foreground one. Surprisingly, our measurements reveal a cool (T approximate to 10(4) K), massive (M-CGM %26gt; 10(10) M-circle dot), and metal-enriched (Z greater than or similar to 0.1 Z(circle dot)) medium extending to at least the expected virial radius (r(vir) = 160 kpc). The average equivalent widths of H I Ly alpha ((W) over bar (Ly alpha) = 2.1 +/- 0.15 angstrom for impact parameters R-perpendicular to %26lt; 200 kpc) and C II 1334 (%26lt;(W)over bar%26gt;(1334) = 0.7 +/- 0.1) exceed the corresponding CGM measurements of these transitions from all galaxy populations studied previously. Furthermore, we conservatively estimate that the quasar CGM has a 64(-7)(+6)% covering fraction of optically thick gas (N-HI %26gt; 10(17.2) cm(-2)) within r(vir); this covering factor is twice that of the contemporaneous Lyman break galaxy population. This unexpected reservoir of cool gas is rarely detected %26quot;down-the-barrel%26quot; to quasars, and hence it is likely that our background sight lines intercept gas that is shadowed from the quasar ionizing radiation by the same obscuring medium often invoked in models of active galactic nucleus unification. Because the high-z halos inhabited by quasars predate modern groups and clusters, these observations are also relevant to the formation and enrichment history of the intragroup/intracluster medium.

• 出版日期2013-1-10