TY - JOUR
T1 - Insights into formation scenarios of massive early-type galaxies from spatially resolved stellar population analysis in CALIFA
AU - Zibetti, Stefano
AU - Gallazzi, Anna R.
AU - Hirschmann, Michaela
AU - Consolandi, Guido
AU - Falcon-Barroso, Jesus
AU - van de Ven, Glenn
AU - Lyubenova, Mariya
PY - 2020/1/2
Y1 - 2020/1/2
N2 - We perform spatially resolved stellar population analysis for a sample of 69 early-type galaxies (ETGs) from the CALIFA integral field spectroscopic survey, including 48 ellipticals and 21 S0's. We generate and quantitatively characterize profiles of light-weighted mean stellar age and metallicity within less than or similar to 2R(e), as a function of radius and stellar-mass surface density mu(*). We study in detail the dependence of profiles on galaxies' global properties, including velocity dispersion se, stellarmass, morphology. ETGs are universally characterized by strong, negative metallicity gradients (similar to-0.3 dex per R-e) within 1R(e), which flatten out moving towards larger radii. A quasi-universal local mu(*)-metallicity relation emerges, which displays a residual systematic dependence on se, whereby higher se implies higher metallicity at fixed mu(*). Age profiles are typically U-shaped, with minimum around 0.4 R-e, asymptotic increase to maximum ages beyond similar to 1.5 R-e, and an increase towards the centre. The depth of the minimum and the central increase anticorrelate with sigma(e). A possible qualitative interpretation of these observations is a two-phase scenario. In the first phase, dissipative collapse occurs in the inner 1R(e), establishing a negative metallicity gradient. The competition between the outside-in quenching due to feedback-driven winds and some form of inside-out quenching, possibly caused by central AGN feedback or dynamical heating, determines the U-shaped age profiles. In the second phase, the accretion of ex-situ stars from quenched and low-metallicity satellites shapes the flatter stellar population profiles in the outer regions.
AB - We perform spatially resolved stellar population analysis for a sample of 69 early-type galaxies (ETGs) from the CALIFA integral field spectroscopic survey, including 48 ellipticals and 21 S0's. We generate and quantitatively characterize profiles of light-weighted mean stellar age and metallicity within less than or similar to 2R(e), as a function of radius and stellar-mass surface density mu(*). We study in detail the dependence of profiles on galaxies' global properties, including velocity dispersion se, stellarmass, morphology. ETGs are universally characterized by strong, negative metallicity gradients (similar to-0.3 dex per R-e) within 1R(e), which flatten out moving towards larger radii. A quasi-universal local mu(*)-metallicity relation emerges, which displays a residual systematic dependence on se, whereby higher se implies higher metallicity at fixed mu(*). Age profiles are typically U-shaped, with minimum around 0.4 R-e, asymptotic increase to maximum ages beyond similar to 1.5 R-e, and an increase towards the centre. The depth of the minimum and the central increase anticorrelate with sigma(e). A possible qualitative interpretation of these observations is a two-phase scenario. In the first phase, dissipative collapse occurs in the inner 1R(e), establishing a negative metallicity gradient. The competition between the outside-in quenching due to feedback-driven winds and some form of inside-out quenching, possibly caused by central AGN feedback or dynamical heating, determines the U-shaped age profiles. In the second phase, the accretion of ex-situ stars from quenched and low-metallicity satellites shapes the flatter stellar population profiles in the outer regions.
KW - techniques: imaging spectroscopy
KW - galaxies: abundances
KW - galaxies: elliptical and lenticular, cD
KW - galaxies: evolution
KW - galaxies:formation
KW - galaxies: stellar content
KW - POTSDAM MULTIAPERTURE SPECTROPHOTOMETER
KW - STAR-FORMATION HISTORIES
KW - SAURON PROJECT
KW - METALLICITY GRADIENTS
KW - ATLAS(3D) PROJECT
KW - SIMPLE-MODEL
KW - CLUSTER
KW - AGES
KW - SPECTROSCOPY
KW - ABSORPTION
U2 - 10.1093/mnras/stz3205
DO - 10.1093/mnras/stz3205
M3 - Journal article
VL - 491
SP - 3562
EP - 3585
JO - Royal Astronomical Society. Monthly Notices
JF - Royal Astronomical Society. Monthly Notices
SN - 0035-8711
IS - 3
ER -