Lyman alpha line formation in an expanding H I superbubble in the primeval galaxy DLA 2233+131

Abstract

Various types of galaxies observed in the cosmological scales show P-Cygni type profiles in the Lyman alpha emission lines. A Monte Carlo code is developed to investigate the Lyman alpha line transfer in an optically thick and moving medium with a careful consideration of the scattering in the damping wing. The main features in emergent line profiles include a primary emission peak in the red part and a much weaker secondary peak in the blue part. The primary peak recedes to the red and the width of the feature increases as NHI increases. The P-Cygni type profile in the Lyman alpha emission line of DLA 2233+131 (z=3.15) is noted to be similar to those found in the nearby galaxies and distant (3<z<3.5) H II galaxies. Our numerical results are applied to show that the DLA system may possess an expanding H I supershell with bulk flow of 200 km/s and that the H I column density NHI is approximately 1020 cm-2. From the observed Lyman alpha flux and adopting a typical size of the emission region 1 , we estimate the electron density of the H II region to be 1 -3 and the mass of H II region 108 . We also conclude that it requires 103$ O5 stars for photoionization, which is comparable to first-ranked H II regions found in nearby spiral and irregular galaxies.

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