Mon. Not. R. Astron. Soc., 471, 1428-1445 (2017/October-3)
The MASSIVE Survey - VII. The relationship of angular momentum, stellar mass and environment of early-type galaxies.
VEALE M., MA C.-P., GREENE J.E., THOMAS J., BLAKESLEE J.P., McCONNELL N., WALSH J.L. and ITO J.
Abstract (from CDS):
We analyse the environmental properties of 370 local early-type galaxies (ETGs) in the MASSIVE and ATLAS3D surveys, two complementary volume-limited integral-field spectroscopic (IFS) galaxy surveys spanning absolute K-band magnitude - 21.5 >= MK >= -26.6, or stellar mass 8×109 M*2×1012 M☉. We find these galaxies to reside in a diverse range of environments measured by four methods: group membership (whether a galaxy is a brightest group/cluster galaxy, satellite or isolated), halo mass, large-scale mass density (measured over a few Mpc) and local mass density (measured within the Nth neighbour). The spatially resolved IFS stellar kinematics provide robust measurements of the spin parameter λe and enable us to examine the relationship among λe, M* and galaxy environment. We find a strong correlation between λe and M*, where the average λe decreases from ∼0.4 to below 0.1 with increasing mass, and the fraction of slow rotators fslow increase from ∼10 to 90 per cent. We show for the first time that at fixed M*, there are almost no trends between galaxy spin and environment; the apparent kinematic morphology-density relation for ETGs is therefore primarily driven by M* and is accounted for by the joint correlations between M* and spin, and between M* and environment. A possible exception is that the increased fslow at high local density is slightly more than expected based only on these joint correlations. Our results suggest that the physical processes responsible for building up the present-day stellar masses of massive galaxies are also very efficient at reducing their spin, in any environment.
© 2017 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society
galaxies: elliptical and lenticular, cD - galaxies: evolution - galaxies: formation - galaxies: kinematics and dynamics - galaxies: structure - galaxies: structure
Status in Simbad:
waiting for electronic table
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