The Origin of the Mass-Metallicity Relation: Insights from 53,000 Star-forming Galaxies in the Sloan Digital Sky Survey

The Origin of the Mass-Metallicity Relation: Insights from 53,000 Star-forming Galaxies in the Sloan Digital Sky Survey

We utilize Sloan Digital Sky Survey imaging and spectroscopy of 653,000 star-forming galaxies at z60.1 to study the relation between stellar mass and gas-phase metallicity. We derive gas-phase oxygen abundances and stellar masses using new techniques that make use of the latest stellar evolutionary...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 613; no. 2; pp. 898 - 913
Main Authors: Tremonti, Christy A, Heckman, Timothy M, Kauffmann, Guinevere, Brinchmann, Jarle, Charlot, Stéphane, White, Simon D. M, Seibert, Mark, Peng, Eric W, Schlegel, David J, Uomoto, Alan, Fukugita, Masataka, Brinkmann, Jon
Format: Journal Article
Language:English
Published: Chicago, IL IOP Publishing 01-10-2004
University of Chicago Press
American Astronomical Society
Subjects:
Astronomy
Characteristics and properties of external galaxies and extragalactic objects
Earth, ocean, space
Exact sciences and technology
Origin, formation, evolution, age, and star formation
Sciences of the Universe
Stellar systems. Galactic and extragalactic objects and systems. The universe
Galaxy evolution
Abundance
Statistical analysis
Galaxies
Metallicity
Sky surveys
Galaxies: Fundamental Parameters
Astrophysics
Galaxies: Statistics
Galaxies: Abundances
Galaxies: Evolution
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Summary:We utilize Sloan Digital Sky Survey imaging and spectroscopy of 653,000 star-forming galaxies at z60.1 to study the relation between stellar mass and gas-phase metallicity. We derive gas-phase oxygen abundances and stellar masses using new techniques that make use of the latest stellar evolutionary synthesis and photoionization models. We find a tight (c0.1 dex) correlation between stellar mass and metallicity spanning over 3 orders of magnitude in stellar mass and a factor of 10 in metallicity. The relation is relatively steep from 10 super(8.5) to 10 super(10.5) M sub( )h70 super(-2), in good accord with known trends between luminosity and metallicity, but flattens above 10 super(10.5) M sub( ). We use indirect estimates of the gas mass based on the Ha luminosity to compare our data to predictions from simple closed box chemical evolution models. We show that metal loss is strongly anticorrelated with baryonic mass, with low-mass dwarf galaxies being 5 times more metal depleted than L* galaxies at z60.1. Evidence for metal depletion is not confined to dwarf galaxies but is found in galaxies with masses as high as 10 super(10) M sub( ). We interpret this as strong evidence of both the ubiquity of galactic winds and their effectiveness in removing metals from galaxy potential wells.
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ISSN:0004-637X
1538-4357
DOI:10.1086/423264