Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-09-13
Astronomy and Astrophysics
Astrophysics
22 pages, 7 figures, accepted for publication in the Astronomical Journal
Scientific paper
10.1086/425879
Using H I absorption alone, we attempt to separate H I absorption lines in quasar spectra into two categories; HDLs (Higher Density Lines) and LDLs (Lower Density Lines), and we discuss the difference in their physical properties. We deblend and fit all H I lines with Voigt profiles, and make an unbiased sample of H I lines covering a wide column density range (12 < log N_HI < 19 cm^-2). To reduce the influence of line blending, we simultaneously fit several Lyman series lines. As a result of a two-point correlation analysis, we found that higher column density H I lines are clustering at $\Delta$ v < 200 km/s, while lower ones at $\Delta$ v < 100 km/s. We define HDLs as H I lines with 15 < log N_HI < 19 cm^-2 and all H I lines within +/- 200 km/s of a line with log N_HI > 15 cm^-2, and LDLs as others with 12 < log N_HI < 15 cm^-2. We found that the HDLs have smaller minimum b-values for a given column density than the LDLs. This difference is successfully reproduced by our Hydrodynamic simulation. The LDLs seem to be cool or shock-heated diffuse IGM gas, while the HDLs are likely to be cooler dense gas near to galaxies.
Iye Masanori
Kashikawa Nobunari
Kirkman David
Misawa Takahiro
Norman Michael
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