With the aim of understanding the coevolution of star formation rate (SFR), stellar mass (M*), and oxygen abundance (O/H) in galaxies up to redshift z ≃ 3.7, we have compiled the largest available data set for studying Metallicity Evolution and Galaxy Assembly (MEGA); it comprises ~1000 galaxies with a common O/H calibration and spans almost two orders of magnitude in metallicity, a factor of ~106 in SFR, and a factor of ~105 in stellar mass. From a principal component analysis, we find that the three-dimensional parameter space reduces to a Fundamental Plane in metallicity (FPZ) given by 12 + log(O/H) = -0.14 log (SFR) + 0.37 log(M*) + 4.82. The mean O/H FPZ residuals are small (0.16 dex) and consistent with trends found in smaller galaxy samples with more limited ranges in M*, SFR, and O/H. Importantly, the FPZ is found to be approximately redshift invariant within the uncertainties. In a companion paper, these results are interpreted with an updated version of the model presented by Dayal, Ferrara & Dunlop.

Coevolution of metallicity and star formation in galaxies to z sime 3.7 - I. A Fundamental Plane

FERRARA, ANDREA
2016

Abstract

With the aim of understanding the coevolution of star formation rate (SFR), stellar mass (M*), and oxygen abundance (O/H) in galaxies up to redshift z ≃ 3.7, we have compiled the largest available data set for studying Metallicity Evolution and Galaxy Assembly (MEGA); it comprises ~1000 galaxies with a common O/H calibration and spans almost two orders of magnitude in metallicity, a factor of ~106 in SFR, and a factor of ~105 in stellar mass. From a principal component analysis, we find that the three-dimensional parameter space reduces to a Fundamental Plane in metallicity (FPZ) given by 12 + log(O/H) = -0.14 log (SFR) + 0.37 log(M*) + 4.82. The mean O/H FPZ residuals are small (0.16 dex) and consistent with trends found in smaller galaxy samples with more limited ranges in M*, SFR, and O/H. Importantly, the FPZ is found to be approximately redshift invariant within the uncertainties. In a companion paper, these results are interpreted with an updated version of the model presented by Dayal, Ferrara & Dunlop.
2016
Settore FIS/05 - Astronomia e Astrofisica
galaxies: abundances, galaxies: evolution, galaxies: high-redshift, galaxies: star formation
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11384/64698
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