期刊
ASTROPHYSICAL JOURNAL LETTERS
卷 760, 期 1, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/2041-8205/760/1/L7
关键词
galaxies: halos; intergalactic medium; quasars: absorption lines
资金
- NASA/STScI grant [HST-GO-11667.01-A]
- NASA's New Mexico Space Grant Consortium
- Alfred P. Sloan Foundation
- NSF
- U.S. Department of Energy
- NASA
- Japanese Monbukagakusho
- Max Planck Society
- Higher Education Funding Council for England
We report a bimodality in the azimuthal angle distribution of gas around galaxies as traced by Mg II absorption: halo gas prefers to exist near the projected galaxy major and minor axes. The bimodality is demonstrated by computing the mean azimuthal angle probability distribution function using 88 spectroscopically confirmed Mg II-absorption-selected galaxies [W-r(2796) >= 0.1 angstrom] and 35 spectroscopically confirmed non-absorbing galaxies [W-r(2796) < 0.1 angstrom] imaged with Hubble Space Telescope and Sloan Digital Sky Survey. The azimuthal angle distribution for non-absorbers is flat, indicating no azimuthal preference for gas characterized by W-r(2796) < 0.1 angstrom. We find that blue star-forming galaxies clearly drive the bimodality while red passive galaxies may exhibit an excess along their major axis. These results are consistent with galaxy evolution scenarios where star-forming galaxies accrete new gas, forming new stars and producing winds, while red galaxies exist passively due to reduced gas reservoirs. We further compute an azimuthal angle dependent Mg II absorption covering fraction, which is enhanced by as much as 20%-30% along the major and minor axes. The W-r(2796) distribution for gas along the major axis is likely skewed toward weaker Mg II absorption than for gas along the projected minor axis. These combined results are highly suggestive that the bimodality is driven by gas accreted along the galaxy major axis and outflowing along the galaxy minor axis. Adopting these assumptions, we find that the opening angle of outflows and inflows to be 100 degrees and 40 degrees, respectively. We find that the probability of detecting outflows is similar to 60%, implying that winds are more commonly observed.
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