Astronomy and Astrophysics – Astrophysics
Scientific paper
2008-07-07
Astronomy and Astrophysics
Astrophysics
MNRAS, accepted for publication
Scientific paper
10.1111/j.1365-2966.2008.13692.x
We investigate the physical processes occuring in the multiphase gas of a damped Ly\alpha system (DLA). We base our analysis on a high quality Keck HIRES spectrum of the QSO J1211+0422 in which a DLA is detected at z=2.377. There is little contamination of the high-ion (OVI, NV, CIV, SiIV) absorption, allowing us to explore the properties of the highly ionized gas and its connection to other gas-phases. The metallicity ([Z/H]=-1.41+/-0.08), HI column density (log N(HI)=20.80+/-0.10), full-width velocity (\Delta(v_ neut)=70 km/s) and relative abundances ([Si/Fe]=+0.23+/-0.05 and [N/Si]=-0.88+/-0.07) of this DLA are not unusual. However, we derive the lowest CII* cooling rate in a DLA, l_c < 10^{-27.8} erg/s per H atom (3\sigma). Using this stringent limit, we show that the neutral gas (confined at |v|<+39 km/s) must be warm and the star formation rate is <7.1x10^{-3} M_odot/yr/kpc^2. Surprisingly, the gas shows strong, complex absorption profiles from highly ionized gas whose kinematics appear connected to each other and the low ions. The total amount of highly and weakly ionized gas is very large with N(HII)/N(HI)>1.5. At |v|>+39 km/s, the gas is fully and highly ionized (H+/H~1, N(CIV)>>N(CII), N(SiIV)>>N(SiII)). Based on ionization models, OVI and NV are generally difficult to produce by hard photons, while SiIV and CIV can be photoionized to a large extent. There is, however, no evidence of OVI-bearing gas at T~10^6 K associated with this DLA. In contrast, there is some evidence for narrow OVI, NV, and CIV components (unexplained by photoionization), implying too low temperatures (T < 10^5 K) for simple collisional ionization models to produce their observed column densities. Stellar feedback is a possible source for producing the high ions, but we cannot rule out accretion of non-pristine material onto the protogalaxy.
Howk Chris J.
Lehner Nicholas
Prochaska Jason Xavier
Wolfe Arthur M.
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