TY - JOUR
T1 - Galaxy and Mass Assembly (GAMA): Accurate number densities and environments of massive ultra-compact galaxies at 0.02 < z < 0.3
AU - Buitrago, F.
AU - Ferreras, I.
AU - Kelvin, L. S.
AU - Baldry, I. K.
AU - Davies, L.
AU - Angthopo, J.
AU - Khochfar, S.
AU - Hopkins, A. M.
AU - Driver, S. P.
AU - Brough, S.
AU - Sabater, J.
AU - Conselice, C. J.
AU - Liske, J.
AU - Holwerda, B. W.
AU - Bremer, M. N.
AU - Phillipps, S.
AU - López-Sánchez, Á. R.
AU - Graham, A. W.
PY - 2018/11/16
Y1 - 2018/11/16
N2 - Context. Massive ultra-compact galaxies (MUGs) are common at z = 2-3,
but very rare in the nearby Universe. Simulations predict that the few
surviving MUGs should reside in galaxy clusters, whose large relative
velocities prevent them from merging, thus maintaining their original
properties (namely stellar populations, masses, sizes and dynamical
state). Aims: Our goal is to obtain a complete census of the MUG
population at 0.02 <z <0.3, determining the number density,
population properties and environment. Methods: We have taken
advantage of the high-completeness, large-area spectroscopic GAMA
survey, complementing it with deeper imaging from the KiDS and VIKING
surveys. We find a set of 22 bona-fide MUGs, defined as having high
stellar mass (> 8 × 1010 M⊙) and
compact size (Re <2 kpc). An additional set of seven
lower-mass objects (6 × 1010 <
M⋆/M⊙ <8 × 1010) are
also potential candidates according to typical mass uncertainties. Results: The comoving number density of MUGs at low redshift (z <
0.3) is constrained at (1.0 ± 0.4)×10-6
Mpc-3, consistent with galaxy evolution models. However, we
find a mixed distribution of old and young galaxies, with a quarter of
the sample representing (old) relics. MUGs have a predominantly early or
swollen disk morphology (Sérsic index 1 <n <2.5) with
high stellar surface densities
(⟨Σe⟩˜1010 M⊙
Kpc-2). Interestingly, a large fraction feature close
companions - at least in projection - suggesting that many (but not all)
reside in the central regions of groups. Halo masses show these galaxies
inhabit average-mass groups. Conclusions: As MUGs are found to be
almost equally distributed among environments of different masses, their
relative fraction is higher in more massive overdensities, matching the
expectations that some of these galaxies fell in these regions at early
times. However, there must be another channel leading some of these
galaxies to an abnormally low merger history because our sample shows a
number of objects that do not inhabit particularly dense environments.
Based on observations made with ESO Telescopes at the La Silla Paranal
Observatory under programmes ID 179.A-2004 and ID 177.A-3016.
AB - Context. Massive ultra-compact galaxies (MUGs) are common at z = 2-3,
but very rare in the nearby Universe. Simulations predict that the few
surviving MUGs should reside in galaxy clusters, whose large relative
velocities prevent them from merging, thus maintaining their original
properties (namely stellar populations, masses, sizes and dynamical
state). Aims: Our goal is to obtain a complete census of the MUG
population at 0.02 <z <0.3, determining the number density,
population properties and environment. Methods: We have taken
advantage of the high-completeness, large-area spectroscopic GAMA
survey, complementing it with deeper imaging from the KiDS and VIKING
surveys. We find a set of 22 bona-fide MUGs, defined as having high
stellar mass (> 8 × 1010 M⊙) and
compact size (Re <2 kpc). An additional set of seven
lower-mass objects (6 × 1010 <
M⋆/M⊙ <8 × 1010) are
also potential candidates according to typical mass uncertainties. Results: The comoving number density of MUGs at low redshift (z <
0.3) is constrained at (1.0 ± 0.4)×10-6
Mpc-3, consistent with galaxy evolution models. However, we
find a mixed distribution of old and young galaxies, with a quarter of
the sample representing (old) relics. MUGs have a predominantly early or
swollen disk morphology (Sérsic index 1 <n <2.5) with
high stellar surface densities
(⟨Σe⟩˜1010 M⊙
Kpc-2). Interestingly, a large fraction feature close
companions - at least in projection - suggesting that many (but not all)
reside in the central regions of groups. Halo masses show these galaxies
inhabit average-mass groups. Conclusions: As MUGs are found to be
almost equally distributed among environments of different masses, their
relative fraction is higher in more massive overdensities, matching the
expectations that some of these galaxies fell in these regions at early
times. However, there must be another channel leading some of these
galaxies to an abnormally low merger history because our sample shows a
number of objects that do not inhabit particularly dense environments.
Based on observations made with ESO Telescopes at the La Silla Paranal
Observatory under programmes ID 179.A-2004 and ID 177.A-3016.
KW - galaxies: evolution
KW - galaxies: clusters: general
KW - galaxies: structure
KW - Galaxy: fundamental parameters
KW - galaxies: elliptical and lenticular
KW - cD
KW - galaxies: stellar content
U2 - 10.1051/0004-6361/201833785
DO - 10.1051/0004-6361/201833785
M3 - Article
SN - 0004-6361
VL - 619
JO - Astronomy & Astrophysics
JF - Astronomy & Astrophysics
ER -