582 research outputs found

    The absorption spectrum of the QSO PKS 2126-158 (z_em = 3.27) at high resolution

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    Spectra of the z_em = 3.268 quasar PKS 2126-158 have been obtained in the range lambda lambda 4300-6620 A with a resolution R = 27000 and an average signal-to-noise ratio s/n = 25 per resolution element. The list of the identified absorption lines is given together with their fitted column densities and Doppler widths. The modal value of the Doppler parameter distribution for the Ly-alpha lines is = 25 km/s. The column density distribution can be described by a power-law dn/dN \propto N^{-beta} with beta = 1.5. 12 metal systems have been identified, two of which were previously unknown. In order to make the column densities of the intervening systems compatible with realistic assumptions about the cloud sizes and the silicon to carbon overabundance, it is necessary to assume a jump beyond the He II edge in the spectrum of the UV ionizing background at z = 3 a factor 10 larger than the standard predictions for the integrated quasar contribution. An enlarged sample of C IV absorptions (71 doublets) has been used to analyze the statistical properties of this class of absorbers strictly related to galaxies. The column density distribution is well described by a single power-law, with beta=1.64 and the Doppler parameter distribution shows a modal value b = 14 km/s. The two point correlation function has been computed in the velocity space for the individual components of C IV features. A significant signal is obtained for scales smaller than 200-300 km/s, xi(30< Delta v < 90 km/s) = 32.71 +- 2.89. A trend of decreasing clustering amplitude with decreasing column density is apparent, analogously to what has been observed for Ly-alpha lines.Comment: 16 pages, LaTeX (l-aa.sty), 13 ps figures, included in text with epsf, Fig. 1 can be retrieved at http://www.sissa.it/~dodorico/paper.html, accepted by Astronomy and Astrophysic

    Simulating cosmic metal enrichment by the first galaxies

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    We study cosmic metal enrichment via AMR hydrodynamical simulations in a (10 Mpc/h)3^3 volume following the Pop III-Pop II transition and for different Pop III IMFs. We have analyzed the joint evolution of metal enrichment on galactic and intergalactic scales at z=6 and z=4. Galaxies account for <9% of the baryonic mass; the remaining gas resides in the diffuse phases: (a) voids, i.e. regions with extremely low density (Δ\Delta<1), (b) the true intergalactic medium (IGM, 1<Δ\Delta<10) and (c) the circumgalactic medium (CGM, 10<Δ<102.5\Delta<10^{2.5}), the interface between the IGM and galaxies. By z=6 a galactic mass-metallicity relation is established. At z=4, galaxies with a stellar mass M∗=108.5M⊙M_*=10^{8.5}M_\odot show log(O/H)+12=8.19, consistent with observations. The total amount of heavy elements rises from ΩZSFH=1.52 10−6\Omega^{SFH}_Z=1.52\, 10^{-6} at z=6 to 8.05 10−610^{-6} at z=4. Metals in galaxies make up to ~0.89 of such budget at z=6; this fraction increases to ~0.95 at z=4. At z=6 (z=4) the remaining metals are distributed in CGM/IGM/voids with the following mass fractions: 0.06/0.04/0.01 (0.03/0.02/0.01). Analogously to galaxies, at z=4 a density-metallicity (Δ\Delta-Z) relation is in place for the diffuse phases: the IGM/voids have a spatially uniform metallicity, Z~10−3.510^{-3.5}Zsun; in the CGM Z steeply rises with density up to ~10−210^{-2}Zsun. In all diffuse phases a considerable fraction of metals is in a warm/hot (T>104.510^{4.5}K) state. Due to these physical conditions, CIV absorption line experiments can probe only ~2% of the total carbon present in the IGM/CGM; however, metal absorption line spectra are very effective tools to study reionization. Finally, the Pop III star formation history is almost insensitive to the chosen Pop III IMF. Pop III stars are preferentially formed in truly pristine (Z=0) gas pockets, well outside polluted regions created by previous star formation episodes.Comment: 23 pages, 18 figures, 3 tables, Accepted for publication in MNRA

    IR Colors and Sizes of Faint Galaxies

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    We present J and Ks band galaxy counts down to J=24 and Ks=22.5 obtained with the new infrared imager/spectrometer, SOFI, at the ESO New Technology Telescope. The co-addition of short, dithered, images led to a total exposure time of 256 and 624 minutes respectively, over an area of ∼20\sim20 arcmin2^2 centered on the NTT Deep Field. The total number of sources with S/N>5>5 is 1569 in the J sample and 1025 in the Ks-selected sample. These are the largest samples currently available at these depths. A dlogNlogN/dmm relation with slope of ∼0.36\sim0.36 in J and ∼0.38\sim0.38 in Ks is found with no evident sign of a decline at the magnitude limit. The observed surface density of ``small'' sources is much lower than ``large'' ones at bright magnitudes and rises more steeply than the large sources to fainter magnitudes. Fainter than J∼22.5J\sim22.5 and Ks∼21.5\sim21.5, small sources dominate the number counts. Galaxies get redder in J-K down to J∼20\sim20 and Ks∼19\sim19. At fainter magnitudes, the median color becomes bluer with an accompanying increase in the compactness of the galaxies. We show that the blue, small sources which dominate the faint IR counts are not compatible with a high redshift (z>1z>1) population. On the contrary, the observed color and compactness trends, together with the absence of a turnover at faint magnitudes and the dominance of small sources, can be naturally explained by an increasing contribution of sub-L∗L^* galaxies when going to fainter apparent magnitudes. Such evidence strongly supports the existence of a steeply rising (α≪−1\alpha\ll-1) faint end of the local infrared luminosity function of galaxies - at least for luminosities L<0.01L∗L<0.01L^*.Comment: Accepted for publication on A&A; 15 pages, 13 figure

    The clustering properties of the Lyman-alpha clouds

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    We analyze the clustering properties of a high-resolution (~10 km/s) sample of about 1600 Lyman-alpha lines in the spectra of 15 quasars, obtained in the framework of an ESO key-programme with the addition of literature data. The two-point correlation function in the velocity space shows a significant signal on small velocity scales (Delta v < 300 km/s) with amplitude and significance increasing with increasing column density. The correlation scale at z~3 turns out to be 200 - 300 h_{50}^{-1} kpc. A trend of increasing correlation with decreasing redshift is apparent. The existence of over- and under-densities on scales of a few tens of Megaparsec is confirmed with a high confidence level and a number of possible structures are identified. The present observations are found to be consistent with models of gravitationally induced correlations. A continuity scenario between Lyman-alpha and metal systems emerges, with a suggested physical association between the Lyman-α\alpha clouds with log N_{HI} > 14 and the halos of protogalactic systems.Comment: 9 pages, 5 figures, MNRAS-Latex. Accepted for publication in the Monthly Not. Roy. Astro. So
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