SDSS IV MaNGA: Dependence of Global and Spatially Resolved SFR-M∗ Relations on Galaxy Properties

SDSS IV MaNGA: Dependence of Global and Spatially Resolved SFR-M∗ Relations on Galaxy Properties

The galaxy integrated H star formation rate-stellar mass relation, or SFR(global)-M*(global) relation, is crucial for understanding star formation history and evolution of galaxies. However, many studies have dealt with SFR using unresolved measurements, which makes it difficult to separate out the...

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Veröffentlicht in:The Astrophysical journal 2018-02, Vol.854 (2), p.159
Hauptverfasser: Pan, Hsi-An, Lin, Lihwai, Hsieh, Bau-Ching, Sánchez, Sebastián F., Ibarra-Medel, Héctor, Boquien, Médéric, Lacerna, Ivan, Argudo-Fernández, Maria, Bizyaev, Dmitry, Cano-Díaz, Mariana, Drory, Niv, Gao, Yang, Masters, Karen, Pan, Kaike, Tabor, Martha, Tissera, Patricia, Xiao, Ting
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Active galactic nuclei
Astrophysics
Density
Flattening
Galactic evolution
Galaxies
galaxies: evolution
galaxies: formation
galaxies: star formation
Ionization
Luminosity
Star & galaxy formation
Star formation
Star formation rate
Stars & galaxies
Stellar evolution
Stellar mass
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container_issue 2
container_start_page 159
container_title The Astrophysical journal
container_volume 854
creator Pan, Hsi-An
Lin, Lihwai
Hsieh, Bau-Ching
Sánchez, Sebastián F.
Ibarra-Medel, Héctor
Boquien, Médéric
Lacerna, Ivan
Argudo-Fernández, Maria
Bizyaev, Dmitry
Cano-Díaz, Mariana
Drory, Niv
Gao, Yang
Masters, Karen
Pan, Kaike
Tabor, Martha
Tissera, Patricia
Xiao, Ting
description The galaxy integrated H star formation rate-stellar mass relation, or SFR(global)-M*(global) relation, is crucial for understanding star formation history and evolution of galaxies. However, many studies have dealt with SFR using unresolved measurements, which makes it difficult to separate out the contamination from other ionizing sources, such as active galactic nuclei and evolved stars. Using the integral field spectroscopic observations from SDSS-IV MaNGA, we spatially disentangle the contribution from different H powering sources for ∼1000 galaxies. We find that, when including regions dominated by all ionizing sources in galaxies, the spatially resolved relation between H surface density ( H (all)) and stellar mass surface density ( *(all)) progressively turns over at the high *(all) end for increasing M*(global) and/or bulge dominance (bulge-to-total light ratio, B/T). This in turn leads to the flattening of the integrated H (global)-M*(global) relation in the literature. By contrast, there is no noticeable flattening in both integrated H (H ii)-M*(H ii) and spatially resolved H (H ii)- *(H ii) relations when only regions where star formation dominates the ionization are considered. In other words, the flattening can be attributed to the increasing regions powered by non-star-formation sources, which generally have lower ionizing ability than star formation. An analysis of the fractional contribution of non-star-formation sources to total H luminosity of a galaxy suggests a decreasing role of star formation as an ionizing source toward high-mass, high-B/T galaxies and bulge regions. This result indicates that the appearance of the galaxy integrated SFR-M* relation critically depends on their global properties (M*(global) and B/T) and relative abundances of various ionizing sources within the galaxies.
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An analysis of the fractional contribution of non-star-formation sources to total H luminosity of a galaxy suggests a decreasing role of star formation as an ionizing source toward high-mass, high-B/T galaxies and bulge regions. 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subjects Active galactic nuclei
Astrophysics
Density
Flattening
Galactic evolution
Galaxies
galaxies: evolution
galaxies: formation
galaxies: star formation
Ionization
Luminosity
Star & galaxy formation
Star formation
Star formation rate
Stars & galaxies
Stellar evolution
Stellar mass
title SDSS IV MaNGA: Dependence of Global and Spatially Resolved SFR-M∗ Relations on Galaxy Properties
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