The SAMI galaxy survey : stellar population and structural trends across the Fundamental Plane

We study the Fundamental Plane (FP) for a volume- and luminosity-limited sample of 560 early-type galaxies from the SAMI survey. Using r-band sizes and luminosities from new multi-Gaussian expansion photometric measurements, and treating luminosity as the dependent variable, the FP has coefficients...

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Bibliographic Details
Published in:Monthly Notices of the Royal Astronomical Society
Main Authors: D'Eugenio, Francesco, Colless, Matthew, Scott, Nicholas, van der Wel, Arjen, Davies, Roger L, van de Sande, Jesse, Sweet, Sarah M, Oh, Sree, Groves, Brent, Sharp, Rob, Owers, Matt S, Bland-Hawthorn, Joss, Croom, Scott M, Brough, Sarah, Bryant, Julia J, Goodwin, Michael, Lawrence, Jon S, Lorente, Nuria P F, Richards, Samuel N
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Physics and Astronomy
Space and Planetary Science
Astronomy and Astrophysics
galaxies: elliptical and lenticular
cD
galaxies: evolution
galaxies: formation
galaxies: spiral
galaxies: stellar content
MASS ASSEMBLY GAMA
DIGITAL SKY SURVEY
SPATIALLY-RESOLVED SPECTROSCOPY
MULTI-GAUSSIAN EXPANSION
STAR-FORMATION HISTORIES
ABSORPTION-LINE SPECTRA
TO-LIGHT RATIO
DATA RELEASE
ATLAS(3D) PROJECT
QUIESCENT GALAXIES
Zero Point
sami
Online Access:https://biblio.ugent.be/publication/8723931
http://hdl.handle.net/1854/LU-8723931
https://doi.org/10.1093/mnras/stab1146
https://biblio.ugent.be/publication/8723931/file/8758096
Description
Summary:We study the Fundamental Plane (FP) for a volume- and luminosity-limited sample of 560 early-type galaxies from the SAMI survey. Using r-band sizes and luminosities from new multi-Gaussian expansion photometric measurements, and treating luminosity as the dependent variable, the FP has coefficients a = 1.294 +/- 0.039, b = 0.912 +/- 0.025, and zero-point c = 7.067 +/- 0.078. We leverage the high signal-to-noise ratio of SAMI integral field spectroscopy, to determine how structural and stellar population observables affect the scatter about the FP. The FP residuals correlate most strongly (8 sigma significance) with luminosity-weighted simple stellar population (SSP) age. In contrast, the structural observables surface mass density, rotationto-dispersion ratio, Sdrsic index, and projected shape all show little or no significant correlation. We connect the FP residuals to the empirical relation between age (or stellar mass-to-light ratio Upsilon(*)) and surface mass density, the best predictor of SSP age amongst parameters based on FP observables. We show that the FP residuals (anti)correlate with the residuals of the relation between surface density and Upsilon(*). This correlation implies that part of the FP scatter is due to the broad age and Upsilon(*) distribution at any given surface mass density. Using virial mass and Upsilon(*), we construct a simulated FP and compare it to the observed FP. We find that, while the empirical relations between observed stellar population relations and FP observables are responsible for most (75 per cent) of the FP scatter, on their own they do not explain the observed tilt of the FP away from the virial plane.

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