Identifying the progenitor set of present-day early-type galaxies: a view from the standard model

Kaviraj, Sugata; Devriendt, Julien; Ferreras, Ignacio; Yi, Sukyoung K.; Silk, Joseph

doi:10.1051/0004-6361/200810483

Cited by 27 publications

(30 citation statements)

References 64 publications

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“…Moreover in the lowest redshift bins we include faint objects which are not observable at higher redshift. As already discussed by Kaviraj et al (2006), we observe that the type mix in the RED population depends on the range of galaxy luminosities that are included in the sample. Fig.…”

Section: Contamination Evolution With Redshiftsupporting

confidence: 69%

The VIMOS-VLT deep survey

Franzetti¹,

Scodeggio²,

Garilli³

et al. 2007

A&A

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Aims. In this paper we discuss the mix of star-forming and passive galaxies up to z ∼ 2, based on the first epoch VIMOS-VLT Deep Survey (VVDS) data. Methods. We compute rest-frame magnitudes and colors and analyse the color−magnitude relation and the color distributions. We also use the multi-band VVDS photometric data and spectral templates fitting to derive multi-color galaxy types. Using our spectroscopic dataset we separate galaxies based on a star-formation activity indicator derived combining the equivalent width of the [OII] emission line and the strength of the D n (4000) continuum break. Results. In agreement with previous works we find that the global galaxy rest-frame color distribution follows a bimodal distribution at z ≤ 1, and we establish that this bimodality holds up to at least z = 1.5. The details of the rest-frame color distribution depend however on redshift and on galaxy luminosity, with faint galaxies being bluer than the luminous ones over the whole redshift range covered by our data, and with galaxies becoming bluer as redshift increases. This latter blueing trend does not depend, to a first approximation, on galaxy luminosity. The comparison between the spectral classification and the rest-frame colors shows that about 35−40% of the red objects are in fact star forming galaxies. Hence we conclude that the red sequence cannot be used to effectively isolate a sample of purely passively evolving objects within a cosmological survey. We show how multi-color galaxy types have a slightly higher efficiency than rest-frame color in isolating the passive, non star-forming galaxies within the VVDS sample. Connected to these results is also the finding that the color−magnitude relations derived for the color and for the spectroscopically selected early-type galaxies have remarkably similar properties, with the contaminating star-forming galaxies within the red sequence objects introducing no significant offset in the rest frame colors. Therefore the average color of the red objects does not appear to be a very sensitive indicator for measuring the evolution of the early-type galaxy population.

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Section: Contamination Evolution With Redshiftsupporting

confidence: 69%

The VIMOS-VLT deep survey

Franzetti¹,

Scodeggio²,

Garilli³

et al. 2007

A&A

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“…A plausible route for the triggering of the star formation we are witnessing in these blue early‐type systems is gas‐rich major mergers, where at least one of the progenitors is a late‐type galaxy. Such events are predicted by current semi‐analytic models (Khochfar & Burkert 2003; Kaviraj et al 2006) and so may be a natural trigger for the time sequence of S07.…”

Section: Discussionmentioning

confidence: 93%

Galaxy Zoo: a sample of blue early-type galaxies at low redshift

Schawinski

Lintott

Thomas

et al. 2009

Monthly Notices of the Royal Astronomical Society

170

185

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???The definitive version is available at: www3.interscience.wiley.com '. Copyright Blackwell / Royal Astronomical Society. DOI: 10.1111/j.1365-2966.2009.14793.xWe report the discovery of a population of nearby, blue early-type galaxies with high star formation rates (0.5 < SFR < 50 M??? yr???1) . They are identified by their visual morphology as provided by Galaxy Zoo for Sloan Digital Sky Survey Data Release 6 and their u???r colour. We select a volume-limited sample in the redshift range 0.02 < z < 0.05 , corresponding to luminosities of approximately L* and above and with u???r colours significantly bluer than the red sequence. We confirm the early-type morphology of the objects in this sample and investigate their environmental dependence and star formation properties. Blue early-type galaxies tend to live in lower density environments than 'normal' red sequence early-types and make up 5.7 ?? 0.4 per cent of the low-redshift early-type galaxy population. We find that such blue early-type galaxies are virtually absent at high velocity dispersions above 200 km s???1 . Our analysis uses emission line diagnostic diagrams and we find that ???25 per cent of them are actively star forming, while another ???25 per cent host both star formation and an active galactic nucleus (AGN). Another ???12 per cent are AGN. The remaining 38 per cent show no strong emission lines. When present and uncontaminated by an AGN contribution, the star formation is generally intense. We consider star formation rates derived from H??, u band and infrared luminosities, and radial colour profiles, and conclude that the star formation is spatially extended. Of those objects that are not currently undergoing star formation must have ceased doing so recently in order to account for their blue optical colours. The gas-phase metallicity of the actively star-forming blue early-types galaxies is supersolar in all cases. We discuss the place of these objects in the context of galaxy formation. A catalogue of all 204 blue early-type galaxies in our sample, including star formation rates, emission line classification is provided

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“…Fig. 1 shows the position of our E+A galaxies (filled blue circles) in the (NUV − r ) versus ( g − r ) colour space, compared to a sample of early‐type galaxies drawn from the SDSS DR5 using the method of Kaviraj et al (2006b) and cross‐matched with the GALEX second data release. It is apparent that the E+A population is well separated from the early‐type population which defines the bulk of the red sequence.…”

Section: Sample Selectionmentioning

confidence: 99%

“…The motivation for an instantaneous burst at high redshift stems from the fact that, as potential progenitors of spheroidal galaxies, one expects a substantial fraction of stellar mass to have formed at high redshift in these galaxies (e.g. Bower, Lucey & Ellis 1992; Kaviraj et al 2006b). Furthermore, since the UV is insensitive to stellar populations older than ∼2 Gyr coupled with the fact that optical colour evolution virtually stops after 5–6 Gyr (e.g.…”

Section: Parameter Estimationmentioning

confidence: 99%

The UV properties of E+A galaxies: constraints on feedback-driven quenching of star formation

Kaviraj

Kirkby

Silk

et al. 2007

Monthly Notices of the Royal Astronomical Society

Self Cite

130

166

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We present the first large‐scale study of E+A galaxies that incorporates photometry in the ultraviolet (UV) wavelengths. E+A galaxies are ‘post‐starburst’ systems, with strong Balmer absorption lines indicating significant recent star formation, but without [O ii] and Hα emission lines which are characteristic of ongoing star formation. The starburst that creates the E+A galaxy typically takes place within the last Gyr and creates a high fraction (20–60 per cent) of the stellar mass in the remnant over a short time‐scale (<0.1 Gyr). We find a tight correlation between the luminosity of our E+A galaxies and the implied star formation rate (SFR) during the starburst. While low‐luminosity E+As [M(z) > −20] exhibit implied SFRs of less than 50 M⊙ yr−1, their luminous counterparts [M(z) < −22] show SFRs greater than 300 and as high as 2000 M⊙ yr−1, suggesting that luminous and ultra‐luminous infrared galaxies in the low‐redshift Universe could be the progenitors of massive nearby E+A galaxies. We perform a comprehensive study of the characteristics of the quenching that truncates the starburst in E+A systems. We find that, for galaxies less massive than 1010 M⊙, the quenching efficiency decreases as the galaxy mass increases. However, for galaxies more massive than 1010 M⊙, this trend is reversed and the quenching efficiency increases with galaxy mass. Noting that the mass threshold at which this reversal occurs is in excellent agreement with the mass above which active galactic nuclei (AGN) become significantly more abundant in nearby galaxies, we use simple energetic arguments to show that the bimodal behaviour of the quenching efficiency is consistent with AGN and supernovae (SN) being the principal sources of negative feedback above and below M∼ 1010 M⊙, respectively. The arguments assume that quenching occurs through the mechanical ejection or dispersal of the gas reservoir and that, in the high‐mass regime (M > 1010 M⊙), the Eddington ratios in this sample of galaxies scale as Mγ, where 1 < γ < 3. Finally, we use our E+A sample to estimate the time it takes for galaxies to migrate from the blue cloud to the red sequence. We find migration times between 1 and 5 Gyr, with a median value of 1.5 Gyr.

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Identifying the progenitor set of present-day early-type galaxies: a view from the standard model

Cited by 27 publications

References 64 publications

The VIMOS-VLT deep survey

The VIMOS-VLT deep survey

Galaxy Zoo: a sample of blue early-type galaxies at low redshift

The UV properties of E+A galaxies: constraints on feedback-driven quenching of star formation

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