iMaNGA: mock MaNGA galaxies based on IllustrisTNG and MaStar SSPs. - III. Stellar metallicity drivers in MaNGA and TNG50

Author:

Nanni Lorenza1ORCID,Neumann Justus2ORCID,Thomas Daniel13ORCID,Maraston Claudia1,Trayford James1ORCID,Lovell Christopher C14ORCID,Law David R5,Yan Renbin6ORCID,Chen Yanping7

Affiliation:

1. Institute of Cosmology & Gravitation, University of Portsmouth, Dennis Sciama Building , Portsmouth PO1 3FX , UK

2. Max-Planck-Institut für Astronomie , Königstuhl 17, 69117 Heidelberg , Germany

3. School of Mathematics and Physics, University of Portsmouth , Lion Gate Building, Portsmouth PO1 3HF , UK

4. Astronomy Centre, University of Sussex , Falmer, Brighton BN1 9QH , UK

5. Space Telescope Science Institute , 3700 San Martin Drive, Baltimore, MD 21218 , USA

6. Department of Physics, The Chinese University of Hong Kong, Shatin, N.T., Hong Kong SAR , China

7. New York University Abu Dhabi , Abu Dhabi PO Box 129188 , United Arab Emirates

Abstract

ABSTRACT The iMaNGA project uses a forward-modelling approach to compare the predictions of cosmological simulations with observations from SDSS-IV/MaNGA. We investigate the dependency of age and metallicity radial gradients on galaxy morphology, stellar mass, stellar surface mass density (Σ*), and environment. The key of our analysis is that observational biases affecting the interpretation of MaNGA data are emulated in the theoretical iMaNGA sample. The simulations reproduce the observed global stellar population scaling relations with positive correlations between galaxy mass and age/metallicity quite well and also produce younger stellar populations in late-type in agreement with observations. We do find interesting discrepancies, though, that can inform the physics and further development of the simulations. Ages of spiral galaxies and low-mass ellipticals are overestimated by about 2–4 Gyr. Radial metallicity gradients are steeper in iMaNGA than in MaNGA, a discrepancy most prominent in spiral and lenticular galaxies. Also, the observed steepening of metallicity gradients with increasing galaxy mass is not well matched by the simulations. We find that the theoretical radial profiles of surface mass density Σ* are steeper than in observations except for the most massive galaxies. In both MaNGA and iMaNGA [Z/H] correlates with Σ*, however, the simulations systematically predict lower [Z/H] by almost a factor of 2 at any Σ*. Most interestingly, for galaxies with stellar mass log M* ≤ 10.80 M⊙, the MaNGA data reveal a positive correlation between galaxy radius and [Z/H] at fixed Σ*, which is not recovered in iMaNGA. Finally, the dependence on environmental density is negligible in both the theoretical iMaNGA and the observed MaNGA data.

Funder

ERC

Alfred P. Sloan Foundation

Publisher

Oxford University Press (OUP)

Subject

Space and Planetary Science,Astronomy and Astrophysics

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