2019
DOI: 10.3847/1538-4357/ab297c
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Signatures of Stellar Accretion in MaNGA Early-type Galaxies

Abstract: The late assembly of massive galaxies is thought to be dominated by stellar accretion in their outskirts (beyond 2 effective radii R e ) due to dry, minor galaxy mergers. We use observations of 1010 passive early-type galaxies (ETGs) within z < 0.15 from SDSS IV MaNGA to search for evidence of this accretion. The outputs from the stellar population fitting codes FIREFLY, pPXF, and Prospector are compared to control for systematic errors in stellar metallicity (Z) estimation. We find that the average radial log… Show more

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Cited by 53 publications
(62 citation statements)
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References 123 publications
(168 reference statements)
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“…The figure shows a clear preference for ex-situ material to be located at the outer edges of the galaxy, with no detectable ex-situ material in the centre of the galaxy. This is akin to simulated results showing the same preference for ex-situ fraction increase with galactocentric radius (Schaye et al 2014;Crain et al 2015;Rodriguez-Gomez et al 2016;Davison et al 2020), as well as observational studies showing the same principles (Forbes et al 2011;Pillepich, Madau & Mayer 2015;Oyarzún et al 2019). The mean ex-situ fraction measured for NGC 7135 at approximately 0.6 effective radii (the greatest extent captured by the MUSE image) is 7 per cent.…”
Section: Discussionsupporting
confidence: 78%
“…The figure shows a clear preference for ex-situ material to be located at the outer edges of the galaxy, with no detectable ex-situ material in the centre of the galaxy. This is akin to simulated results showing the same preference for ex-situ fraction increase with galactocentric radius (Schaye et al 2014;Crain et al 2015;Rodriguez-Gomez et al 2016;Davison et al 2020), as well as observational studies showing the same principles (Forbes et al 2011;Pillepich, Madau & Mayer 2015;Oyarzún et al 2019). The mean ex-situ fraction measured for NGC 7135 at approximately 0.6 effective radii (the greatest extent captured by the MUSE image) is 7 per cent.…”
Section: Discussionsupporting
confidence: 78%
“…Regarding the dependence of the metallicity gradient on mass, previous observational results are in disagreement (see for a review Oyarzún et al 2019). We find that the gradient slopes tend to become flattened as the CLEs are less massive, which agrees with the proposal that SN-driven winds lower the SF efficiency in galaxies with weaker gravitational potentials.…”
Section: Radial Gradients: Comparisons With Previous Work and Implica...supporting
confidence: 80%
“…In comparison to Oyarzún et al (2019) who use stellar metallicity profiles to estimate the ex-situ fractions of MaNGA galaxies, results are reasonably well matched. The results in the Oyarzún et al (2019) similarly show an increase in ex-situ fraction with both mass and galactocentric radius, however the scatter in these values at >2r e essentially cover the entire ex-situ axis. Similar to population analyses in Edwards et al (2020) we find population gradients in essentially all the galaxies studied, occurring strongly with both age and metallicity.…”
Section: Discussionmentioning
confidence: 60%
“…This is in line with a two-phase formation scenario in which central galaxy regions are formed by relatively stable in-situ processes, and the outskirts are formed through far more stochastic accretion and so show a greater scatter in the surface mass density. This is also found to be the case in Oyarzún et al (2019) in which the authors find a flattening in the metallicity profile of z<0.15 early type galaxies beyond a radius of 1.5r e , and conclude the most reasonable explanation of this is stellar accretion to the galaxy outskirts. This result is also seen for samples of brightest cluster galaxies (Edwards et al 2020) who likewise find signatures of the two-phase scenario in profiles of kinematics and metallicity.…”
Section: Introductionmentioning
confidence: 54%
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