On the formation of massive quiescent galaxies with diverse morphologies in the TNG50 simulation

Park, Minjung; Tacchella, Sandro; Nelson, Erica J.; Hernquist, Lars; Weinberger, Rainer; Diemer, Benedikt; Nelson, Dylan; Pillepich, Annalisa; Marinacci, Federico; Vogelsberger, Mark

doi:10.1093/mnras/stac1773

Cited by 20 publications

(12 citation statements)

References 120 publications

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“…with the picture that integrated AGN accretion is required for AGN feedback to quench star formation, as suggested by the IllustrisTNG simulation (Terrazas et al 2020;Piotrowska et al 2022). However, whereas the low-accretion rate implementation of AGN feedback in the IllustrisTNG simulation leads to long-term galaxy-wide quenching (Weinberger et al 2017;Zinger et al 2020;Nelson et al 2021;Park et al 2022), our AGN galaxies are not preferentially in the process of quenching when compared with the control galaxies. The relatively local impact of AGN feedback in our sample of AGN galaxies is instead suggestive of the picture that AGN feedback does not necessarily couple efficiently to the ISM, as found in zoom-in simulations with FIRE (Torrey et al 2020) and observations of outflows in local AGNs (Fluetsch et al 2019).…”

Section: Comparison With Other Worksupporting

confidence: 57%

Active Galactic Nuclei Feedback in SDSS-IV MaNGA: AGNs Have Suppressed Central Star Formation Rates

Lammers,

Iyer,

Ibarra-Medel

et al. 2023

ApJ

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Despite the importance of feedback from active galactic nuclei (AGNs) in models of galaxy evolution, observational constraints on the influence of AGN feedback on star formation remain weak. To this end, we have compared the star formation trends of 279 low-redshift AGN galaxies with 558 inactive control galaxies using integral field unit spectroscopy from the Sloan Digital Sky Survey-IV Mapping Nearby Galaxies at Apache Point Observatory survey. With a Gaussian-process-based methodology, we reconstruct nonparametric star formation histories in spatially resolved spaxels covering the face of each galaxy. Based on the galaxy-wide star formation rates (SFRs) alone, we find no obvious signatures of AGN feedback. However, the AGN galaxies have significantly suppressed central (kiloparsec-scale) SFRs, lying up to a factor of 2 below those of the control galaxies, providing direct observational evidence of AGN feedback suppressing star formation. The suppression of central SFRs in the AGN galaxies began in the central regions ∼6 Gyr ago (redshift z ∼ 0.7), taking place over a few gigayears. A small subset of the AGN galaxies were rapidly driven to quiescence shortly before being observed (in the last 500 Myr), potentially indicating instances of AGN-driven feedback. More frequently, however, star formation continues in the AGN galaxies, with suppression primarily in the central regions. This is suggestive of a picture in which integrated (gigayear-timescale) AGN feedback can significantly affect central star formation, but may be inefficient in driving galaxy-wide quenching in low-redshift galaxies, instead leaving them in the green valley.

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Section: Comparison With Other Worksupporting

confidence: 57%

Active Galactic Nuclei Feedback in SDSS-IV MaNGA: AGNs Have Suppressed Central Star Formation Rates

Lammers,

Iyer,

Ibarra-Medel

et al. 2023

ApJ

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“…A mechanism of this sort, bar quenching, is one of the proposed explanations for passive disk galaxies ("red spirals"; Masters et al 2010). Studies of central red spirals in the EAGLE and IllustrisTNG simulations conclude that they are quenched in the same way as other passive centrals: through gas expulsion by black hole feedback (Correa et al 2019;Davies et al 2020;Łokas 2022;Park et al 2022). At least in IllustrisTNG, red spirals tend to have quenched more recently than red ellipticals.…”

Section: Galaxy Quenching and Cgm Transformationmentioning

confidence: 96%

The CGM² Survey: Quenching and the Transformation of the Circumgalactic Medium

Tchernyshyov

Werk

Wilde

et al. 2023

ApJ

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This study addresses how the incidence rate of strong O vi absorbers in a galaxy’s circumgalactic medium (CGM) depends on galaxy mass and, independently, on the amount of star formation in the galaxy. We use Hubble Space Telescope/Cosmic Origins Spectrograph absorption spectroscopy of quasars to measure O vi absorption within 400 projected kpc and 300 km s−1 of 52 galaxies with M * ∼ 3 × 1010 M ⊙. The galaxies have redshifts 0.12 < z < 0.6, stellar masses 1010.1 M ⊙ < M * < 1010.9 M ⊙, and spectroscopic classifications as star-forming or passive. We compare the incidence rates of high column density O vi absorption (N O VI ≥ 1014.3 cm−2) near star-forming and passive galaxies in two narrow ranges of stellar mass and, separately, in a matched range of halo mass. In all three mass ranges, the O vi covering fraction within 150 kpc is higher around star-forming galaxies than around passive galaxies with greater than 3σ-equivalent statistical significance. On average, the CGM of star-forming galaxies with M * ∼ 3 × 1010 M ⊙ contains more O vi than the CGM of passive galaxies with the same mass. This difference is evidence for a CGM transformation that happens together with galaxy quenching and is not driven primarily by halo mass.

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“…We note however that there is a significant amount of disagreement in the literature as to the degree to which morphological evolution is accompanied by the quenching of star formation (e.g. Cappellari 2013;Cortese et al 2019;Croom et al 2021;Park et al 2022).…”

Section: Alternate Methods To Identify Disk Galaxiesmentioning

confidence: 81%

The Local Cluster Survey II: disc-dominated cluster galaxies with suppressed star formation

Finn

Vulcani

Rudnick

et al. 2023

Monthly Notices of the Royal Astronomical Society

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We investigate the role of dense environments in suppressing star formation by studying $\rm \log _{10}(M_\star /M_\odot ) > 9.7$ star-forming galaxies in nine clusters from the Local Cluster Survey (0.0137 < z < 0.0433) and a large comparison field sample drawn from the Sloan Digital Sky Survey. We compare the star-formation rate (SFR) versus stellar mass relation as a function of environment and morphology. After carefully controlling for mass, we find that in all environments, the degree of SFR suppression increases with increasing bulge-to-total (B/T) ratio. In addition, the SFRs of cluster and infall galaxies at a fixed mass are more suppressed than their field counterparts at all values of B/T. These results suggest a quenching mechanism that is linked to bulge growth that operates in all environments and an additional mechanism that further reduces the SFRs of galaxies in dense environments. We limit the sample to B/T ≤ 0.3 galaxies to control for the trends with morphology and find that the excess population of cluster galaxies with suppressed SFRs persists. We model the timescale associated with the decline of SFRs in dense environments and find that the observed SFRs of the cluster core galaxies are consistent with a range of models including: a mechanism that acts slowly and continuously over a long (2 − 5 Gyr) timescale, and a more rapid (<1 Gyr) quenching event that occurs after a delay period of 1 − 6 Gyr. Quenching may therefore start immediately after galaxies enter clusters.

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On the formation of massive quiescent galaxies with diverse morphologies in the TNG50 simulation

Cited by 20 publications

References 120 publications

Active Galactic Nuclei Feedback in SDSS-IV MaNGA: AGNs Have Suppressed Central Star Formation Rates

Active Galactic Nuclei Feedback in SDSS-IV MaNGA: AGNs Have Suppressed Central Star Formation Rates

The CGM² Survey: Quenching and the Transformation of the Circumgalactic Medium

The Local Cluster Survey II: disc-dominated cluster galaxies with suppressed star formation

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On the formation of massive quiescent galaxies with diverse morphologies in the TNG50 simulation

Cited by 20 publications

References 120 publications

Active Galactic Nuclei Feedback in SDSS-IV MaNGA: AGNs Have Suppressed Central Star Formation Rates

Active Galactic Nuclei Feedback in SDSS-IV MaNGA: AGNs Have Suppressed Central Star Formation Rates

The CGM2 Survey: Quenching and the Transformation of the Circumgalactic Medium

The Local Cluster Survey II: disc-dominated cluster galaxies with suppressed star formation

Contact Info

Product

Resources

About

The CGM² Survey: Quenching and the Transformation of the Circumgalactic Medium