Bibcode
Nogueira-Cavalcante, J. P.; Gonçalves, T. S.; Menéndez-Delmestre, K.; de la Rosa, I. G.; Charbonnier, A.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 484, Issue 3, p.3022-3035
Fecha de publicación:
4
2019
Número de citas
8
Número de citas referidas
8
Descripción
Massive quiescent compact galaxies have been discovered at high
redshifts, associated with rapid compaction and cessation of star
formation (SF). In this work, we set out to quantify the time-scales in
which SF is quenched in compact galaxies at intermediate redshifts. For
this, we select a sample of green valley galaxies within the COSMOS
field in the midst of quenching their SF at 0.5 < z < 1.0 that
exhibit varying degrees of compactness. Based on the Hδ absorption
line and the 4000 Å break of coadded zCOSMOS spectra for
subsamples of normal-sized and compact galaxies we determine quenching
time-scales as a function of compactness. We find that the SF quenching
time-scales in green valley compact galaxies are much shorter than in
normal-sized ones. In an effort to understand this trend, we use the
Illustris simulation to trace the evolution of the SF history, the
growth rate of the central super massive black hole (SMBH), and the AGN
feedback in compact and normal-sized galaxies. We find that the
difference in SF quenching time-scales is due to the mode of the AGN
feedback. In the compact galaxies the kinematic-mode is dominant, being
highly efficient at quenching the SF by depleting the internal gas. For
normal-sized galaxies, the prevailing thermal-mode injects energy into
the circumgalactic gas, preventing cold gas accretion and quenching SF
via the slower strangulation mechanism. These results are consistent
with the violent disc instability and gas-rich mergers scenarios,
followed by strong AGN and stellar feedback. Although this kind of event
is most expected to occur at z = 2-3, we find evidences that the
formation of compact quiescent galaxies can occur at z < 1.