When the Milky Way turned off the lights: APOGEE provides evidence of star formation quenching in our Galaxy

Haywood, M.; Lehnert, M. D.; Matteo, P. Di; Snaith, Owain; Schultheis, M.; Katz, David; Gómez, A.

doi:10.1051/0004-6361/201527567

Cited by 148 publications

(201 citation statements)

References 120 publications

(275 reference statements)

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“…Lehnert et al (2014Lehnert et al ( , 2015 and Haywood et al (2016) extended this analysis, showing that this scenario is useful to explain the formation of MW-like galaxies at high z. They propose that there is a drop of the SFI in the thick disk phase to a more quiescent phase at z < 1, a drop that is more significant than the decrease expected from the exhaustion of gas given by a Schmidt-Kennicutt relation.…”

Section: Discussion: Sfh Constraints On Galaxy Formation Scenariosmentioning

confidence: 87%

“…9 shows the results of this comparison. The left panel compares the evolution of the SFR of the inner disk of the MW as predicted by Haywood et al (2016), drawn as black solid lines, with the SFR(t) obtained with our analysis for Sbc (circles) and Sc (stars) galaxies in three M intervals covering stellar masses similar to that of the Galaxy. Our SFRs are computed for regions within R < 2 HLR, corresponding to ∼ 10 kpc for Sbc galaxies, and thus matching the size of the MW inner disk (Haywood et al 2016).…”

Section: Discussion: Sfh Constraints On Galaxy Formation Scenariosmentioning

confidence: 95%

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Spatially-resolved star formation histories of CALIFA galaxies

Delgado

Pérez

Fernandes

et al. 2017

A&A

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This paper presents the spatially resolved star formation history (SFH) of nearby galaxies with the aim of furthering our understanding of the different processes involved in the formation and evolution of galaxies. To this end, we apply the fossil record method of stellar population synthesis to a rich and diverse data set of 436 galaxies observed with integral field spectroscopy in the CALIFA survey. The sample covers a wide range of Hubble types, with stellar masses ranging from M ∼ 10 9 to 7 × 10 11 M . Spectral synthesis techniques are applied to the datacubes to retrieve the spatially resolved time evolution of the star formation rate (SFR), its intensity (Σ SFR ), and other descriptors of the 2D-SFH in seven bins of galaxy morphology (E, S0, Sa, Sb, Sbc, Sc, and Sd), and five bins of stellar mass. Our main results are: (a) Galaxies form very fast independently of their current stellar mass, with the peak of star formation at high redshift (z > 2). Subsequent star formation is driven by M and morphology, with less massive and later type spirals showing more prolonged periods of star formation. (b) At any epoch in the past the SFR is proportional to M , with most massive galaxies having the highest absolute (but lowest specific) SFRs. (c) While nowadays Σ SFR is similar for all spirals, and significantly lower in early type galaxies (ETG), in the past Σ SFR scales well with morphology. The central regions of today's ETGs are where Σ SFR reached the highest values (> 10 3 M Gyr −1 pc −2 ), similar to those measured in high redshift star forming galaxies. (d) The evolution of Σ SFR in Sbc systems matches that of models for Milky-Way-like galaxies, suggesting that the formation of a thick disk may be a common phase in spirals at early epochs. (e) The SFR and Σ SFR in outer regions of E's and S0's show that they have undergone an extended phase of growth in mass between z = 2 and 0.4. The mass assembled in this phase is in agreement with the two-phase scenario proposed for the formation of ETG. (f) Evidence of an early and fast quenching is found only in the most massive (M > 2 × 10 11 M ) E galaxies of the sample, but not in spirals of similar mass, suggesting that halo-quenching is not the main mechanism for the shut down of star formation in galaxies. Less massive E and disk galaxies show more extended SFHs and a slow quenching. (g) Evidence of fast quenching is also found in the nuclei of ETG and early spirals, with SFR and Σ SFR indicating that they can be the relic of the "red nuggets" detected at high redshift.

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Section: Discussion: Sfh Constraints On Galaxy Formation Scenariosmentioning

confidence: 87%

Section: Discussion: Sfh Constraints On Galaxy Formation Scenariosmentioning

confidence: 95%

Spatially-resolved star formation histories of CALIFA galaxies

Delgado

Pérez

Fernandes

et al. 2017

A&A

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“…Wojno et al 2016;Haywood et al 2016;Mikolaitis et al 2014;Recio-Blanco et al 2014, and references therein), one expects (kinematically selected) thin disc stars to have lower α-to-iron ratios than thick disc stars of the same metallicities. If our dwarf stars sample is dominated by the thick disc stars, as suggested by Fig.…”

Section: Zinc Over Ironmentioning

confidence: 97%

TheGaia-ESO Survey: Galactic evolution of sulphur and zinc

Duffau

Caffau

Sbordone

et al. 2017

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Context. Due to their volatile nature, when sulphur and zinc are observed in external galaxies, their determined abundances represent the gas-phase abundances in the interstellar medium. This implies that they can be used as tracers of the chemical enrichment of matter in the Universe at high redshift. Comparable observations in stars are more difficult and, until recently, plagued by small number statistics. Aims. We wish to exploit the Gaia ESO Survey (GES) data to study the behaviour of sulphur and zinc abundances of a large number of Galactic stars, in a homogeneous way. Methods. By using the UVES spectra of the GES sample, we are able to assemble a sample of 1301 Galactic stars, including stars in open and globular clusters in which both sulphur and zinc were measured. Results. We confirm the results from the literature that sulphur behaves as an α-element. We find a large scatter in [Zn/Fe] ratios among giant stars around solar metallicity. The lower ratios are observed in giant stars at Galactocentric distances less than 7.5 kpc. No such effect is observed among dwarf stars, since they do not extend to that radius. Conclusions. Given the sample selection, giants and dwarfs are observed at different Galactic locations, and it is plausible, and compatible with simple calculations, that Zn-poor giants trace a younger population more polluted by SN Ia yields. It is necessary to extend observations in order to observe both giants and dwarfs at the same Galactic location. Further theoretical work on the evolution of zinc is also necessary.

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“…Since a large fraction of galaxies have a bar at the present epoch and many galaxies (including the Milky Way, see Haywood et al 2016) passed through a stage of quenching, we want to study the possible relation between the bar formation and quenching phase for Milky Way-type galaxies. This link is intriguing, in particular in the Milky Way, where it has been established that a drastic (about a factor 10) and rapid (in about 1 Gyr) decrease in the star-formation rate occurred approximatively 9 − 10 Gyr ago, at the transition between the formation of the thick and thin disks of our Galaxy.…”

Section: Introductionmentioning

confidence: 99%

“…It is thus important to understand and quantify if there exists a causal link between these two phenomena. Haywood et al (2016), for example, proposed that in the Milky Way the action of a stellar bar could have increased the gas turbulence, stabilizing the disk against star formation, quenching its star formation. In this scenario, the suppression of the star formation is not associated to a substantial consumption of the available gas, as in other proposed mechanisms.…”

Section: Introductionmentioning

confidence: 99%

Bar quenching in gas-rich galaxies

Khoperskov

Haywood

Matteo

et al. 2018

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Galaxy surveys have suggested that rapid and sustained decrease in the star-formation rate, "quenching", in massive disk galaxies is frequently related to the presence of a bar. Optical and near-IR observations reveal that nearly 60% of disk galaxies in the local universe are barred, thus it is important to understand the relationship between bars and star formation in disk galaxies. Recent observational results imply that the Milky Way quenched about 9-10 Gyr ago, at the transition between the cessation of the growth of the kinematically hot, old, metal-poor thick disk and the kinematically colder, younger, and more metal-rich thin disk. Although perhaps coincidental, the quenching episode could also be related to the formation of the bar. Indeed the transfer of energy from the large-scale shear induced by the bar to increasing turbulent energy could stabilize the gaseous disk against wide-spread star formation and quench the galaxy. To explore the relation between bar formation and star formation in gas rich galaxies quantitatively, we simulated gas-rich disk isolated galaxies. Our simulations include prescriptions for star formation, stellar feedback, and for regulating the multi-phase interstellar medium. We find that the action of stellar bar efficiently quenches star formation, reducing the star-formation rate by a factor of 10 in less than 1 Gyr. Analytical and self-consistent galaxy simulations with bars suggest that the action of the stellar bar increases the gas random motions within the co-rotation radius of the bar. Indeed, we detect an increase in the gas velocity dispersion up to 20 − 35 km s −1 at the end of the bar formation phase. The star-formation efficiency decreases rapidly, and in all of our models, the bar quenches the star formation in the galaxy. The star-formation efficiency is much lower in simulated barred compared to unbarred galaxies and more rapid bar formation implies more rapid quenching.

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When the Milky Way turned off the lights: APOGEE provides evidence of star formation quenching in our Galaxy

Cited by 148 publications

References 120 publications

Spatially-resolved star formation histories of CALIFA galaxies

Spatially-resolved star formation histories of CALIFA galaxies

TheGaia-ESO Survey: Galactic evolution of sulphur and zinc

Bar quenching in gas-rich galaxies

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