TY - JOUR
T1 - Disc cloaking
T2 - Establishing a lower limit to the number density of local compact massive spheroids/bulges and the potential fate of some high-z red nuggets
AU - Hon, Dexter S.H.
AU - Graham, Alister W.
AU - Davis, Benjamin L.
AU - Marconi, Alessandro
N1 - Publisher Copyright:
© 2022 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.
PY - 2022/8/1
Y1 - 2022/8/1
N2 - The near-absence of compact massive quiescent galaxies in the local Universe implies a size evolution since z ∼2.5. It is often theorized that such 'red nuggets' have evolved into today's elliptical (E) galaxies via an E-to-E transformation. We examine an alternative scenario in which a red nugget develops a rotational disc through mergers and accretion, say, at 1 ≤ z ≤ 2, thereby cloaking the nugget as the extant bulge/spheroid component of a larger, now old, galaxy. We have performed detailed, physically motivated, multicomponent decompositions of a volume-limited sample of 103 massive (M∗/M_{\odot } ≤ 1 × 1011) galaxies within 110 Mpc. Many less massive nearby galaxies are known to be 'fast-rotators' with discs. Among our 28 galaxies with existing elliptical classifications, we found that 18 have large-scale discs, and two have intermediate-scale discs, and are reclassified here as lenticulars (S0) and elliculars (ES). The local spheroid stellar mass function, size-mass diagram and bulge-to-total (B/T) flux ratio are presented. We report lower limits for the volume number density of compact massive spheroids, nc, Sph ∼(0.17-$1.2) × 10-4, Mpc-3, based on different definitions of 'red nuggets' in the literature. Similar number densities of local compact massive bulges were reported by de la Rosa et al. using automated two-component decompositions and their existence is now abundantly clear with our multicomponent decompositions. We find disc-cloaking to be a salient alternative for galaxy evolution. In particular, instead of an E-to-E process, disc growth is the dominant evolutionary pathway for at least low-mass (1 × 1010 < M_∗/M_{\odot }\lessapprox 4 × 1010) red nuggets, while our current lower limits are within an alluring factor of a few of the peak abundance of high-mass red nuggets at 1 ≤ z ≤ 2.
AB - The near-absence of compact massive quiescent galaxies in the local Universe implies a size evolution since z ∼2.5. It is often theorized that such 'red nuggets' have evolved into today's elliptical (E) galaxies via an E-to-E transformation. We examine an alternative scenario in which a red nugget develops a rotational disc through mergers and accretion, say, at 1 ≤ z ≤ 2, thereby cloaking the nugget as the extant bulge/spheroid component of a larger, now old, galaxy. We have performed detailed, physically motivated, multicomponent decompositions of a volume-limited sample of 103 massive (M∗/M_{\odot } ≤ 1 × 1011) galaxies within 110 Mpc. Many less massive nearby galaxies are known to be 'fast-rotators' with discs. Among our 28 galaxies with existing elliptical classifications, we found that 18 have large-scale discs, and two have intermediate-scale discs, and are reclassified here as lenticulars (S0) and elliculars (ES). The local spheroid stellar mass function, size-mass diagram and bulge-to-total (B/T) flux ratio are presented. We report lower limits for the volume number density of compact massive spheroids, nc, Sph ∼(0.17-$1.2) × 10-4, Mpc-3, based on different definitions of 'red nuggets' in the literature. Similar number densities of local compact massive bulges were reported by de la Rosa et al. using automated two-component decompositions and their existence is now abundantly clear with our multicomponent decompositions. We find disc-cloaking to be a salient alternative for galaxy evolution. In particular, instead of an E-to-E process, disc growth is the dominant evolutionary pathway for at least low-mass (1 × 1010 < M_∗/M_{\odot }\lessapprox 4 × 1010) red nuggets, while our current lower limits are within an alluring factor of a few of the peak abundance of high-mass red nuggets at 1 ≤ z ≤ 2.
KW - galaxies: abundances
KW - galaxies: bulges
KW - galaxies: discs
KW - galaxies: elliptical and lenticular, cD
KW - galaxies: evolution
KW - galaxies: structure
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U2 - 10.1093/mnras/stac1171
DO - 10.1093/mnras/stac1171
M3 - Article
AN - SCOPUS:85133778378
SN - 0035-8711
VL - 514
SP - 3410
EP - 3451
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 3
ER -