Abstract
Gas stripping of spiral galaxies or mergers are thought to be the formation mechanisms of lenticular galaxies. In order to determine the conditions in which each scenario dominates, we derive stellar populations of both the bulge and disk regions of 279 lenticular galaxies in the MaNGA survey. We find a clear bimodality in stellar age and metallicity within the population of S0s and this is strongly correlated with stellar mass. Old and metal-rich bulges and disks belong to massive galaxies, and young and metal-poor bulges and disks are hosted by low-mass galaxies. From this we conclude that the bulges and disks are co-evolving. When the bulge and disk stellar ages are compared, we find that the bulge is almost always older than the disk for massive galaxies ($\textrm{M}_{\star} > 10^{10}~\textrm{M}_{\odot}$). The opposite is true for lower mass galaxies. We conclude that we see two separate populations of lenticular galaxies. The old, massive, and metal-rich population possess bulges that are predominantly older than their disks, which we speculate may have been caused by morphological or inside-out quenching. In contrast, the less massive and more metal-poor population have bulges with more recent star formation than their disks. We postulate they may be undergoing bulge rejuvenation (or disk fading), or compaction. Environment doesn't play a distinct role in the properties of either population. Our findings give weight to the notion that while the faded spiral scenario likely formed low-mass S0s, other processes, such as mergers, may be responsible for high-mass S0s.
Highlights
The lenticular morphology class introduced by Hubble (1926) contains galaxies that consist of a bulge and a disc, but lack spiral arms
Data points are scaled by their volume weighting in the MaNGA product launch 5 (MPL-5) Primary+ sample
Data points are scaled by their volume weighting in the Primary+ sample, and coloured by their stellar mass, which is taken from the NASA Sloan Atlas (NSA),1 calculated using the photometric sky subtraction technique of Blanton et al (2011)
Summary
The lenticular (or S0) morphology class introduced by Hubble (1926) contains galaxies that consist of a bulge and a disc, but lack spiral arms. Bedregal, Aragon-Salamanca & Merrifield 2006; Moran et al 2007; Laurikainen et al 2010; Cappellari et al 2011; Prochaska Chamberlain et al 2011; Kormendy & Bender 2012; Johnston, Aragon-Salamanca & Merrifield 2014, and references within) In this scenario, gas within the spiral arms is either stripped through environmental mechanisms such as ram pressure stripping (Gunn & Gott 1972), harassment What generally remains is a largely quiescent disc hosting a pseudo-bulge (Kormendy & Kennicutt 2004) This scenario has been backed up with observations of spiral and S0 globular cluster number densities and specific frequencies (Aragon-Salamanca, Bedregal & Merrifield 2006; Barr et al 2007), and simulations (Bekki & Couch 2011). Given that lenticulars are more populous in denser environmental regions (Dressler 1980; Postman & Geller 1984), this scenario could be used to describe the formation of the majority of lenticulars
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