http://arxiv.org/abs/1403.0947
We analyze the physical conditions of the cool (T ~ 10^4 K) circumgalactic medium (CGM) using the COS-Halos suite of gas column density measurements taken along 38 quasar sightlines passing within 160 kpc of L ~ L* galaxies at z~0.2. These data are well described by simple photoionization models, with the gas highly ionized (n_HII/n_H > 99%) by the extragalactic ultraviolet background (EUVB). Scaling by estimates for the virial radius, R_vir, we show that the ionization state (tracked by the dimensionless ionization parameter, U) increases with distance from the host galaxy. This correlation has a power-law form of U = (0.006 +/- 0.003)(R/R_vir)^(0.8 +/- 0.3), with significant scatter. The ionization parameters imply a decreasing volume density profile n_ H = 10^(-4.2 +/- 0.25) (R/R_vir)^(-0.8 +/-0.3). Our derived gas volume densities are several orders of magnitude lower than predictions from standard two-phase models with a cool medium in pressure equilibrium with a hot, diffuse medium. Applying the ionization corrections to the HI column densities, we estimate a lower limit to the cool gas mass M_ CGMcool > 6.5 x 10^10 M_sun for the volume within R < R_vir. Allowing for an additional warm, OVI-traced phase, the CGM accounts for *at least* half of the baryons purported to be missing from galaxy dark matter halos.
J. Werk, J. Prochaska, J. Tumlinson, et. al.
Thu, 6 Mar 14
6/53