GASP XXIV. The History of Abruptly Quenched Galaxies in Clusters

Vulcani, Benedetta; Fritz, J.; Poggianti, Bianca M.; Bettoni, D.; Franchetto, Andrea; Moretti, Alessia; Gullieuszik, Marco; Jaffé, Yara L.; Biviano, A.; Radovich, M.; Mingozzi, Matilde

doi:10.3847/1538-4357/ab7bdd

Cited by 51 publications

(50 citation statements)

References 125 publications

(170 reference statements)

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“…This strongly suggests that, while the effectiveness of environment-induced quenching is lower in low-mass halos, it is still a factor. This is an intriguing result, which is also consistent with other previous studies (Zabludoff et al 1996;Paccagnella et al 2019;Vulcani et al 2020). The environmental effect clearly can not be dependent only on halo mass, but perhaps instead some other physical feature which correlates with halo mass, such as relative velocity and intragroup gas density.…”

Section: Discussionsupporting

confidence: 92%

“…It has been clear since the early days, when the proportion of cluster galaxies classified as E+A's varied from ∼ 30 per cent to 2 per cent (Couch & Sharples 1987;Poggianti et al 1999;Balogh et al 1999), that the relatively small sample sizes of E+A's combined with their sensitive dependence on the details of the target selection, spectroscopic reduction and parameter estimation, could have a big impact on the interpretation. These uncertainties have continued, and the literature is unsettled on many of the major questions about E+A environmental dependencies (Zabludoff et al 1996;Paccagnella et al 2019;Owers et al 2019), morphological composition (Pracy et al 2009;Swinbank et al 2012;French et al 2016) and triggering mechanisms (Zabludoff et al 1996;Bekki 2014;Yesuf et al 2014;Pawlik et al 2019;Vulcani et al 2020).…”

Section: Introductionmentioning

confidence: 99%

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The environmental dependence of rapidly quenching and rejuvenating galaxies

Cressida

McGee

2020

Monthly Notices of the Royal Astronomical Society

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By combining Hα flux measurements from the Sloan Digital Sky Survey (SDSS) with UV flux observations from the Galaxy Evolution Explorer (GALEX), we examine the environmental dependence (through central/satellite distinction) of the rapid quenching and rejuvenation of galaxies. Hα emissions trace the most massive stars, thereby indicating star-formation on timescales of ∼ 10 Myr, while UV emission traces star-formation on timescales of ∼ 100 Myr. These varying timescales are exploited to probe the most recent star-formation histories of galaxies. In this work, we define a class of transient galaxies which have UV emission typical of star-formation but negligible Hα emission. We find that the occurrence of these transients has a strong stellar mass dependence in both the satellite and central population. However, while at stellar masses greater than M* ∼ 1010 M⊙ they occur with equal frequency regardless of environmental class, at lower stellar masses they are more common in satellites only, with an excess of about 1 percentage point across all low stellar mass galaxies. These satellite transients also have a strong halo mass and group-centric radial dependence suggesting they are driven by an environmental process. Finally, we select a sample of galaxies with Hα emission but not UV emission which could contain short-timescale rejuvenating galaxies. These rejuvenating candidates are few in number and do not have a strong difference in their occurrence rate in centrals or satellites. These unique probes point to an environmental quenching mechanism which occurs on short timescales after the satellite has been in the group environment for a significant time – consistent with ‘delayed-then-rapid’ quenching.

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

The environmental dependence of rapidly quenching and rejuvenating galaxies

Cressida

McGee

2020

Monthly Notices of the Royal Astronomical Society

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“…Outside-in star-formation quenching may also be induced by ram-pressure stripping in galaxy cluster environments (e.g. Bekki 2009;Vulcani et al 2020).…”

Section: Inside-out Quenching and The Role Of Agnsmentioning

confidence: 99%

Star formation quenching stages of active and non-active galaxies

Kalinova

Colombo

Sánchez

et al. 2021

A&A

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The mechanisms that bring galaxies to strongly reduce their star formation activity (star-formation quenching) remain poorly understood. To better study galaxy evolution, we propose a classification based on maps of ionised hydrogen distribution traced by the kiloparsec-resolved, equivalent width of Hα maps, and the nuclear activity of the galaxies using information from the Baldwin-Philips-Terlevich diagnostic diagrams. Using these tools, we group a sample of 238 galaxies from the Calar Alto Legacy Integral Field spectroscopy Area survey in six quenching stages (QSs): (i) objects dominated by recent star formation; (ii) systems that present a quiescent-nuclear-ring structure in their centre; (iii) galaxies that are centrally quiescent; (iv) galaxies with no clear pattern in their ionisation gas distribution (mixed); (v) systems that posses only a few star-forming regions (nearly retired), or (vi) galaxies that are completely quiescent (fully retired). Regarding their nuclear activity, we further divide the galaxies into two groups: active systems that host a weak or strong active galactic nucleus (AGN) at their centre, and non-active objects. Galaxies grouped into quenching-stage classes occupy specific locations on the star-formation-rate versus stellar mass diagram. The ‘blue cloud’ is populated by the star-forming and the quiescent-nuclear-ring galaxies, the ‘green valley’ is populated by centrally quiescent and mixed systems, and the ‘red sequence’ by the nearly- and fully retired objects. Generally, galaxies that host a weak or strong AGN show properties comparable to those of their non-active counterparts at the same QSs, except for the AGN-hosting star-forming systems. The degree of star-formation quenching increases along the present emission-line pattern sequence from star-forming to fully retired. The proposed emission-line classes reinforce the ‘inside-out’ quenching scenario, which foresees that the suppression of star formation begins from the central regions of the galaxies.

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“…5). These are totally devoid of emission lines, are typically located between 0.5 and 1 cluster virial radii (Owers et al 2019;Vulcani et al 2020) and have been quenched outside-in (the disk outskirts first) as expected in the ram pressure stripping scenario (Gavazzi et al 2013).…”

Section: Star Formationmentioning

confidence: 99%

“…The vertical bars at the bottom of the right panel indicate the size of 1 kpc in units of re for each galaxy. FromVulcani et al (2020).…”

mentioning

confidence: 99%

The role of environment on quenching, star formation and AGN activity

Poggianti¹,

Bellhouse²,

Deb

et al. 2020

Proc. IAU

Self Cite

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Galaxies undergoing ram pressure stripping in clusters are an excellent opportunity to study the effects of environment on both the AGN and the star formation activity. We report here on the most recent results from the GASP survey. We discuss the AGN-ram pressure stripping connection and some evidence for AGN feedback in stripped galaxies. We then focus on the star formation activity, both in the disks and the tails of these galaxies, and conclude drawing a picture of the relation between multi-phase gas and star formation.

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GASP XXIV. The History of Abruptly Quenched Galaxies in Clusters

Cited by 51 publications

References 125 publications

The environmental dependence of rapidly quenching and rejuvenating galaxies

The environmental dependence of rapidly quenching and rejuvenating galaxies

Star formation quenching stages of active and non-active galaxies

The role of environment on quenching, star formation and AGN activity

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