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Possible signatures of a cold-flow disk from muse using a z ~ to 1 galaxy-quasar pair toward SDSS J1422-0001

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posted on 2024-08-06, 09:54 authored by N. Bouché, H. Finley, I. Schroetter, Michael MurphyMichael Murphy, P. Richter, R. Bacon, T. Contini, J. Richard, M. Wendt, S. Kamann, B. Epinat, S. Cantalupo, L. A. Straka, J. Schaye, C. L. Martin, C. Péroux, L. Wisotzki, K. Soto, S. Lilly, C. M. Carollo, J. Brinchmann, W. Kollatschny
We use a background quasar to detect the presence of circumgalactic gas around a z = 0.91 low-mass star-forming galaxy. Data from the new Multi Unit Spectroscopic Explorer (MUSE) on the Very Large Telescope show that the galaxy has a dust-corrected star formation rate (SFR) of 4.7 +/- 2.0. M-circle dot yr(-1), with no companion down to 0.22 M-circle dot yr(-1) (5 sigma) within 240 h(-1) kpc ('30'). Using a high-resolution spectrum of the background quasar, which is fortuitously aligned with the galaxy major axis (with an azimuth angle alpha of only 15 degrees), we find, in the gas kinematics traced by low-ionization lines, distinct signatures consistent with those expected for a 'cold-flow disk' extending at least 12 kpc (3 x R-1/2). We estimate the mass accretion rate M-in to be at least two to three times larger than the SFR, using the geometric constraints from the IFU data and the H (I) column density of log N-H (I)/cm(-2) similar or equal to 20.4 obtained from a Hubble Space Telescope/COS near-UV spectrum. From a detailed analysis of the low-ionization lines (e.g., Zn II, Cr II, Ti II, MnII, Si II), the accreting material appears to be enriched to about 0.4 Z(circle dot) (albeit with large uncertainties: log Z/Z(circle dot) = -0.4 +/- 0.4), which is comparable to the galaxy metallicity (12 + log O/H = 8.7 +/- 0.2), implying a large recycling fraction from past outflows. Blueshifted Mg II and Fe II absorptions in the galaxy spectrum from the MUSE data reveal the presence of an outflow. The Mg II and Fe II absorption line ratios indicate emission infilling due to scattering processes, but the MUSE data do not show any signs of fluorescent Fe II* emission.

Funding

Pristine fuel for early galaxies

Australian Research Council

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ISSN

1538-4357

Journal title

The Astrophysical Journal

Volume

820

Issue

2

Article number

article no. 121

Pagination

16 pp

Publisher

IOP Publishing

Copyright statement

Copyright © 2016 The American Astronomical Society. This is an author created, un-copyedited version of an article accepted for publication in Astrophysical Journal. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The definitive publisher-authenticated version is available online at http://dx.doi.org/10.3847/0004-637X/820/2/121

Language

eng

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