Your search keyword '"Vulcani B."' showing total 91 results

1. The GOGREEN survey: Internal dynamics of clusters of galaxies at redshift 0.9–1.4

Author

Biviano, A, van der Burg, RFJ, Balogh, ML, Munari, E, Cooper, MC, De Lucia, G, Demarco, R, Jablonka, P, Muzzin, A, Nantais, J, Old, LJ, Rudnick, G, Vulcani, B, Wilson, G, Yee, HKC, Zaritsky, D, Cerulo, P, Chan, J, Finoguenov, A, Gilbank, D, Lidman, C, Pintos-Castro, I, and Shipley, H

Subjects

Particle and High Energy Physics, Physical Sciences, galaxies: clusters: general, cosmology: observations, galaxies: evolution, astro-ph.CO, Astronomical and Space Sciences, Astronomy & Astrophysics, Astronomical sciences, Particle and high energy physics, Space sciences

Abstract

Context. The study of galaxy cluster mass profiles (M(r)) provides constraints on the nature of dark matter and on physical processes affecting the mass distribution. The study of galaxy cluster velocity anisotropy profiles (β(r)) informs the orbits of galaxies in clusters, which are related to their evolution. The combination of mass profiles and velocity anisotropy profiles allows us to determine the pseudo phase-space density profiles (Q(r)); numerical simulations predict that these profiles follow a simple power law in cluster-centric distance. Aims. We determine the mass, velocity anisotropy, and pseudo phase-space density profiles of clusters of galaxies at the highest redshifts investigated in detail to date. Methods. We exploited the combination of the GOGREEN and GCLASS spectroscopic data-sets for 14 clusters with mass M200 ≥ 1014 M⊙ at redshifts 0.9 ≤ z ≤ 1.4. We constructed an ensemble cluster by stacking 581 spectroscopically identified cluster members with stellar mass M∗ ≥ 109.5 M⊙. We used the MAMPOSSt method to constrain several M(r) and β(r) models, and we then inverted the Jeans equation to determine the ensemble cluster β(r) in a non-parametric way. Finally, we combined the results of the M(r) and β(r) analysis to determine Q(r) for the ensemble cluster. Results. The concentration c200 of the ensemble cluster mass profile is in excellent agreement with predictions from Λ cold dark matter (ΛCDM) cosmological numerical simulations, and with previous determinations for clusters of similar mass and at similar redshifts, obtained from gravitational lensing and X-ray data. We see no significant difference between the total mass density and either the galaxy number density distributions or the stellar mass distribution. Star-forming galaxies are spatially significantly less concentrated than quiescent galaxies. The orbits of cluster galaxies are isotropic near the center and more radial outside. Star-forming galaxies and galaxies of low stellar mass tend to move on more radially elongated orbits than quiescent galaxies and galaxies of high stellar mass. The profile Q(r), determined using either the total mass or the number density profile, is very close to the power-law behavior predicted by numerical simulations. Conclusions. The internal dynamics of clusters at the highest redshift probed in detail to date are very similar to those of lower-redshift clusters, and in excellent agreement with predictions of numerical simulations. The clusters in our sample have already reached a high degree of dynamical relaxation.

Published

2021

2. A Census of Sub-kiloparsec Resolution Metallicity Gradients in Star-forming Galaxies at Cosmic Noon from HST Slitless Spectroscopy

Author

Wang, X, Jones, TA, Treu, T, Daddi, E, Brammer, GB, Sharon, K, Morishita, T, Abramson, LE, Colbert, JW, Henry, AL, Hopkins, PF, Malkan, MA, Schmidt, KB, Teplitz, HI, and Vulcani, B

Subjects

astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Astronomy & Astrophysics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We present the hitherto largest sample of gas-phase metallicity radial gradients measured at sub-kpc resolution in star-forming galaxies in the redshift range of z ∈ [1.2, 2.3]. These measurements are enabled by the synergy of slitless spectroscopy from the Hubble Space Telescope near-infrared channels and the lensing magnification from foreground galaxy clusters. Our sample consists of 76 galaxies with stellar mass ranging from 107 to 1010 M⊙, an instantaneous star formation rate in the range of [1, 100] M⊙ yr-1, and global metallicity [1/12 ,2] of solar. At a 2σ confidence level, 15/76 galaxies in our sample show negative radial gradients, whereas 7/76 show inverted gradients. Combining ours and all other metallicity gradients obtained at a similar resolution currently available in the literature, we measure a negative mass dependence of Δlog(O/H)/Δ r [dex kpc-1] = (-0.020 ± 0.007) + (-0.016 ± 0.008), with the intrinsic scatter being σ = 0.060 ± 0.006 over 4 orders of magnitude in stellar mass. Our result is consistent with strong feedback, not secular processes, being the primary governor of the chemostructural evolution of star-forming galaxies during the disk mass assembly at cosmic noon. We also find that the intrinsic scatter of metallicity gradients increases with decreasing stellar mass and increasing specific star formation rate. This increase in the intrinsic scatter is likely caused by the combined effect of cold-mode gas accretion and merger-induced starbursts, with the latter more predominant in the dwarf mass regime of M∗ ≤ 109 M⊙.

Published

2020

3. The KMOS Lens-Amplified Spectroscopic Survey (KLASS): kinematics and clumpiness of low-mass galaxies at cosmic noon

Author

Girard, M, Mason, CA, Fontana, A, Dessauges-Zavadsky, M, Morishita, T, Amorín, R, Fisher, DB, Jones, T, Schaerer, D, Schmidt, KB, Treu, T, and Vulcani, B

Subjects

galaxies: evolution, galaxies: high-redshift, galaxies: kinematics and dynamics, astro-ph.GA, Astronomical and Space Sciences, Astronomy & Astrophysics

Abstract

We present results from the KMOS Lens-Amplified Spectroscopic Survey (KLASS), an ESO Very Large Telescope (VLT) large program using gravitational lensing to study the spatially resolved kinematics of 44 star-forming galaxies at 0.6 < z < 2.3 with a stellar mass of 8.1 < log(M⋆/M⊙) < 11.0. These galaxies are located behind six galaxy clusters selected from the Hubble Space Telescope Grism Lens-Amplified Survey from Space (GLASS). We find that the majority of the galaxies show a rotating disc, but most of the rotation-dominated galaxies only have a low υ rot/σ0 ratio (median of υrot/σ0 ∼2.5). We explore the Tully-Fisher relation by adopting the circular velocity, $V_{\mathrm{ circ}}=(\upsilon _{\mathrm{ rot}}^2+3.4\sigma _0^2)^{1/2}$, to account for pressure support. We find that our sample follows a Tully-Fisher relation with a positive zero-point offset of +0.18 dex compared to the local relation, consistent with more gas-rich galaxies that still have to convert most of their gas into stars. We find a strong correlation between the velocity dispersion and stellar mass in the KLASS sample. When combining our data to other surveys from the literature, we see an increase of the velocity dispersion with stellar mass at all redshift. We obtain an increase of υrot/σ0 with stellar mass at 0.5 < z < 1.0. This could indicate that massive galaxies settle into regular rotating discs before the low-mass galaxies. For higher redshift (z > 1), we find a weak increase or flat trend. We find no clear trend between the rest-frame UV clumpiness and the velocity dispersion and υrot/σ0. This could suggest that the kinematic properties of galaxies evolve after the clumps formed in the galaxy disc or that the clumps can form in different physical conditions.

Published

2020

4. Discovery of Strongly Inverted Metallicity Gradients in Dwarf Galaxies at z ∼ 2

Author

Wang, X, Jones, TA, Treu, T, Hirtenstein, J, Brammer, GB, Daddi, E, Meng, XL, Morishita, T, Abramson, LE, Henry, AL, Peng, YJ, Schmidt, KB, Sharon, K, Trenti, M, and Vulcani, B

Subjects

galaxies: abundances, galaxies: evolution, galaxies: formation, galaxies: high-redshift, gravitational lensing: strong, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Astronomy & Astrophysics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We report the first measurements with sub-kiloparsec spatial resolution of strongly inverted gas-phase metallicity gradients in two dwarf galaxies at z ∼ 2. The galaxies have stellar masses ∼109 , specific star formation rate ∼20 Gyr-1, and global metallicity (1/4 solar), assuming the strong-line calibrations of [O iii]/Hβ and [O ii]/Hβ from Maiolino et al. Their radial metallicity gradients are measured to be highly inverted, i.e., 0.122 ± 0.008 and 0.111 ± 0.017 dex kpc-1, which is hitherto unseen at such small masses in similar redshift ranges. From the Hubble Space Telescope observations of the source nebular emission and stellar continuum, we present two-dimensional spatial maps of star formation rate surface density, stellar population age, and gas fraction, which show that our galaxies are currently undergoing rapid mass assembly via disk inside-out growth. More importantly, using a simple chemical evolution model, we find that the gas fractions for different metallicity regions cannot be explained by pure gas accretion. Our spatially resolved analysis based on a more advanced gas regulator model results in a spatial map of net gaseous outflows, triggered by active central starbursts, that potentially play a significant role in shaping the spatial distribution of metallicity by effectively transporting stellar nucleosynthesis yields outwards. The relation between wind mass loading factors and stellar surface densities measured in different regions of our galaxies shows that a single type of wind mechanism, driven by either energy or momentum conservation, cannot explain the entire galaxy. These sources present a unique constraint on the effects of gas flows on the early phase of disk growth from the perspective of spatially resolved chemical evolution within individual systems.

Published

2019

5. Prospects for Extending the Mass-Metallicity Relation to Low Mass at High Redshift: A Case Study at z ∼ 1

Author

Cameron, AJ, Jones, T, Yuan, T, Trenti, M, Bernard, S, Henry, A, Hoag, A, and Vulcani, B

Subjects

galaxies: abundances, galaxies: evolution, galaxies: high-redshift, galaxies: ISM, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Astronomy & Astrophysics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We report J-band MOSFIRE spectroscopy of a low-mass () star-forming galaxy at z = 0.997 showing the detection of [N ii] and [S ii] alongside a strong H line. We derive a gas-phase metallicity of , placing this object in a region of M ∗-Z space that is sparsely populated at this redshift. Furthermore, many existing metallicity measurements in this M ∗-z regime are derived from only [N ii]/H (N2), a diagnostic widely used in high-redshift metallicity studies despite the known strong degeneracy with the ionization parameter and resulting large systematic uncertainty. We demonstrate that even in a regime where [N ii] and [S ii] are at the detection limit and the measurement uncertainty associated with the [N ii]/[S ii] ratio is high (S/N ≈ 3), the more sophisticated Dopita et al. diagnostic provides an improved constraint compared to N2 by reducing the systematic uncertainty due to the ionization parameter. This approach does not, however, dispel uncertainty associated with stochastic or systematic variations in the nitrogen-to-oxygen abundance ratio. While this approach improves upon N2, future progress in extending metallicity studies into this low-mass regime will require larger samples to allow for stochastic variations, as well as careful consideration of the global trends among dwarf galaxies in all physical parameters, not just metallicity.

Published

2019

6. Massive Dead Galaxies at z ∼ 2 with HST Grism Spectroscopy. I. Star Formation Histories and Metallicity Enrichment

Author

Morishita, T, Abramson, LE, Treu, T, Brammer, GB, Jones, T, Kelly, P, Stiavelli, M, Trenti, M, Vulcani, B, and Wang, X

Subjects

galaxies: abundances, galaxies: evolution, galaxies: formation, galaxies: high-redshift, galaxies: star formation, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics

Abstract

Observations have revealed massive (log M∗/Mo ≳ 11) galaxies that were already dead when the universe was only ∼2 Gyr. Given the short time before these galaxies were quenched, their past histories and quenching mechanism(s) are of particular interest. In this paper, we study star formation histories (SFHs) of 24 massive galaxies at 1.6 < z < 2.5. A deep slitless spectroscopy and imaging data set collected from multiple Hubble Space Telescope surveys allows robust determination of their spectral energy distributions and SFHs with no functional assumption on their forms. We find that most of our massive galaxies had formed >50% of their extant masses by ∼1.5 Gyr before the time of observed redshifts, with a trend where more massive galaxies form earlier. Their stellar-phase metallicities are already compatible with those of local early-type galaxies, with a median value of log Z∗/Zo = 0.25 and scatter of ∼0.15 dex. In combination with the reconstructed SFHs, we reveal their rapid metallicity evolution from z ∼ 5.5 to ∼2.2 at a rate of ∼0.2 dex Gyr-1 in Z∗/Zo. Interestingly, the inferred stellar-phase metallicities are, when compared at half-mass time, ∼0.25 dex higher than observed gas-phase metallicities of star-forming galaxies. While systematic uncertainties remain, this may imply that these quenched galaxies have continued low-level star formation, rather than abruptly terminating their star formation activity, and kept enhancing their metallicity until recently.

Published

2019

7. Virgo Filaments: III. The gas content of galaxies in filaments as predicted by the GAEA semi-analytic model.

Author

Zakharova, D., Vulcani, B., De Lucia, G., Finn, R. A., Rudnick, G., Combes, F., Castignani, G., Fontanot, F., Jablonka, P., Xie, L., and Hirschmann, M.

Subjects

*GALAXY clusters, *GALACTIC evolution, *LARGE scale structure (Astronomy), *COLD gases, VIRGO Cluster

Abstract

Galaxy evolution depends on the environment in which galaxies are located. The various physical processes (ram-pressure stripping, tidal interactions, etc.) that are able to affect the gas content in galaxies have different efficiencies in different environments. In this work, we examine the gas (atomic HI and molecular H2) content of local galaxies inside and outside clusters, groups, and filaments as well as in isolation using a combination of observational and simulated data. We exploited a catalogue of galaxies in the Virgo cluster (including the surrounding filaments and groups) and compared the data against the predictions of the Galaxy Evolution and Assembly (GAEA) semi-analytic model, which has explicit prescriptions for partitioning the cold gas content in its atomic and molecular phases. We extracted from the model both a mock catalogue that mimics the observational biases and one not tailored to observations in order to study the impact of observational limits on the results and predict trends in regimes not covered by the current observations. The observations and simulated data show that galaxies within filaments exhibit intermediate cold gas content between galaxies in clusters and in isolation. The amount of HI is typically more sensitive to the environment than H2 and low-mass galaxies (log10[M⋆/M⊙]< 10) are typically more affected than their massive (log10[M⋆/M⊙]> 10) counterparts. Considering only model data, we identified two distinct populations among filament galaxies present in similar proportions: those simultaneously lying in groups and isolated galaxies. The former has properties more similar to cluster and group galaxies, and the latter is more similar to those of field galaxies. We therefore did not detect the strong effects of filaments themselves on the gas content of galaxies, and we ascribe the results to the presence of groups in filaments. [ABSTRACT FROM AUTHOR]

Published

2024

8. Candidate ram-pressure stripped galaxies in six low-redshift clusters revealed from ultraviolet imaging.

Author

George, K., Poggianti, B. M., Omizzolo, A., Vulcani, B., Côté, P., Postma, J., Smith, R., Jaffe, Y. L., Gullieuszik, M., Moretti, A., Subramaniam, A., Sreekumar, P., Ghosh, S. K., Tandon, S. N., and Hutchings, J. B.

Subjects

SPIRAL galaxies, GALAXY formation, GALACTIC redshift, STAR formation, GALAXIES, GALAXY clusters, GALACTIC evolution

Abstract

The assembly of galaxy clusters is understood to be a hierarchical process with a continuous accretion of galaxies over time, which increases the cluster size and mass. Late-type galaxies that fall into clusters can undergo ram-pressure stripping, forming extended gas tails within which star formation can happen. The number, location, and tail orientations of such galaxies provide clues about the galaxy infall process, the assembly of the cluster over time, and the consequences of infall for galaxy evolution. Here, we utilise the ∼0.5-degree diameter circular field of the Ultraviolet Imaging Telescope to image six galaxy clusters at z < 0.06 that are known to contain 'jellyfish' galaxies. We searched for stripping candidates in the ultraviolet images of these clusters, which revealed 54 candidates showing signs of unilateral extra-planar emission, due to ram-pressure stripping. Seven candidates had already been identified as likely stripping based on optical B-band imaging. We identified 47 new candidates through UV imaging. Spectroscopic redshift information is available for 39 of these candidate galaxies, of which 19 are associated with six clusters. The galaxies with spectroscopic redshifts that are not part of the clusters appear to be within structures at different redshifts identified as additional peaks in the redshift distribution of galaxies, indicating that they might be ram-pressure stripped or disturbed galaxies in other structures along the line of sight. We examine the orbital history of these galaxies based on their location in the position-velocity phase-space diagram and explore a possible connection to the orientation of the tail direction among cluster member candidates. There are limitations due to different integration times and imaging different regions with respect to the cluster centre. The tails of confirmed cluster member galaxies are found to be oriented away from the cluster centre. [ABSTRACT FROM AUTHOR]

Published

2024

9. Metal Deficiency in Two Massive Dead Galaxies at z ∼ 2

Author

Morishita, T, Abramson, LE, Treu, T, Wang, X, Brammer, GB, Kelly, P, Stiavelli, M, Jones, T, Schmidt, KB, Trenti, M, and Vulcani, B

Subjects

galaxies: abundances, galaxies: evolution, galaxies: structure, astro-ph.GA, Astronomical and Space Sciences, Astronomy & Astrophysics

Abstract

Local massive early-type galaxies are believed to have completed most of their star formation ∼10 Gyr ago and evolved without having substantial star formation since that time. If so, their progenitors should have roughly solar stellar metallicities (Z∗), comparable to their values today. We report the discovery of two lensed massive (), z ∼ 2.2 dead galaxies that appear markedly metal deficient given this scenario. Using 17-band HST+Ks+Spitzer photometry and deep Hubble Space Telescope (HST) grism spectra from the Grism Lens Amplified Survey from Space (GLASS) and supernova (SN) Refsdal follow-up campaigns covering features near λrest ∼ 4000A, we find these systems to be dominated by A-type stars with and -0.49 ± 0.03 (30%-40% solar) under standard assumptions. The second system's lower metallicity is robust to isochrone changes, though this choice can drive the first system's from to 0.1. If these two galaxies are representative of larger samples, this finding suggests that evolutionary paths other than dry minor merging are required for these massive galaxies. Future analyses with direct metallicity measurements - e.g., by the James Webb Space Telescope - will provide critical insight into the nature of such phenomena.

Published

2018

10. The Grism Lens-Amplified Survey from Space (GLASS). XI. Detection of C iv in Multiple Images of the z = 6.11 Lyα Emitter behind RXC J2248.7–4431

Author

Schmidt, KB, Huang, K-H, Treu, T, Hoag, A, Bradač, M, Henry, AL, Jones, TA, Mason, C, Malkan, M, Morishita, T, Pentericci, L, Trenti, M, Vulcani, B, and Wang, X

Subjects

galaxies: clusters: individual, galaxies: evolution, galaxies: high-redshift, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics

Abstract

The C iii] and C iv rest-frame UV emission lines are powerful probes of the ionization states of galaxies. They have furthermore been suggested as alternatives for spectroscopic redshift confirmation of objects at the epoch of reionization (), where the most frequently used redshift indicator, Lyα, is attenuated by the high fraction of neutral hydrogen in the intergalactic medium. However, currently only very few confirmations of carbon UV lines at these high redshifts exist, making it challenging to quantify these claims. Here, we present the detection of C iv λλ1548, 1551 Å in Hubble Space Telescope slitless grism spectroscopy obtained by GLASS of a Lyα emitter at z = 6.11 multiply imaged by the massive foreground galaxy cluster RXC J2248.7-4431. The C iv emission is detected at the 3σ-5σ level in two images of the source, with marginal detection in two other images. We do not detect significant C iii]λλ1907, 1909 Å emission implying an equivalent width Å (1σ) and (2σ). Combined with limits on the rest-frame UV flux from the He ii λ1640 Å emission line and the O iii]λλ1661, 1666 Å doublet, we put constraints on the metallicity and the ionization state of the galaxy. The estimated line ratios and equivalent widths do not support a scenario where an AGN is responsible for ionizing the carbon atoms. SED fits, including nebular emission lines, imply a source with a mass of log(M/M o) ∼ 9, SFR of around 10 M o yr-1, and a young stellar population old. The source shows a stronger ionizing radiation field than objects with detected C iv emission at and adds to the growing sample of low-mass (log(M/M o) ≲ 9) galaxies at the epoch of reionization with strong radiation fields from star formation.

Published

2017

11. First Results from the KMOS Lens-Amplified Spectroscopic Survey (KLASS): Kinematics of Lensed Galaxies at Cosmic Noon

Author

Mason, CA, Treu, T, Fontana, A, Jones, T, Morishita, T, Amorin, R, Bradač, M, Finney, EQ, Grillo, C, Henry, A, Hoag, A, Huang, KH, Schmidt, KB, Trenti, M, and Vulcani, B

Subjects

galaxies: evolution, galaxies: high-redshift, galaxies: kinematics and dynamics, astro-ph.GA, Astronomy & Astrophysics, Astronomical and Space Sciences, Organic Chemistry, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We present the first results of the K-band Multi-Object Spectrometer (KMOS) Lens-Amplified Spectroscopic Survey, a new ESO Very Large Telescope large program, doing multi-object integral field spectroscopy of galaxies gravitationally lensed behind seven galaxy clusters selected from the Hubble Space Telescope (HST) Grism Lens-Amplified Survey from Space. Using the power of the cluster magnification, we are able to reveal the kinematic structure of 25 galaxies at 0.7 z 2.3, in four cluster fields, with stellar masses 7.8log;(M∗/Mo) 10.5. This sample includes five sources at Z > 1 with lower stellar masses than in any previous kinematic integral field unit (IFU) surveys. Our sample displays a diversity in kinematic structure over this mass and redshift range. The majority of our kinematically resolved sample is rotationally supported, but with a lower ratio of rotational velocity to velocity dispersion than in the local universe, indicating the fraction of dynamically hot disks changes with cosmic time. We find that no galaxies with stellar mass

Published

2017

12. The Grism Lens-Amplified Survey from Space (GLASS). VIII. the Influence of the Cluster Properties on Hα Emitter Galaxies at 0.3 < z < 0.7

Author

Vulcani, B, Treu, T, Nipoti, C, Schmidt, KB, Dressler, A, Morshita, T, Poggianti, BM, Malkan, M, Hoag, A, Bradač, M, Abramson, L, Trenti, M, Pentericci, L, Linden, AVD, Morris, G, and Wang, X

Subjects

galaxies: clusters: general, galaxies: evolution, galaxies: formation, galaxies: general, galaxies: star formation, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics

Abstract

Exploiting the data of the Grism Lens-Amplified Survey from Space (GLASS), we characterize the spatial distribution of star formation in 76 highly active star-forming galaxies in 10 clusters at 0.3 < z < 0.7. All of these galaxies are likely restricted to first infall. In a companion paper, we contrast the properties of field and cluster galaxies, whereas here we correlate the properties of H? emitters to a number of tracers of the cluster environment to investigate its role in driving galaxy transformations. H? emitters are found in the clusters out to 0.5 virial radii, the maximum radius covered by GLASS. The peak of the H? emission is offset with respect to the peak of the UV continuum. We decompose these offsets into a radial and a tangential component. The radial component points away from the cluster center in 60% of the cases, with 95% confidence. The decompositions agree with cosmological simulations; that is, the H? emission offset correlates with galaxy velocity and ram-pressure stripping signatures. Trends between H? emitter properties and surface mass density distributions and X-ray emissions emerge only for unrelaxed clusters. The lack of strong correlations with the global environment does not allow us to identify a unique environmental effect originating from the cluster center. In contrast, correlations between H? morphology and local number density emerge. We conclude that local effects, uncorrelated to the cluster-centric radius, play a more important role in shaping galaxy properties.

Published

2017

13. The Grism Lens-Amplified Survey from Space (GLASS). X. Sub-kiloparsec Resolution Gas-phase Metallicity Maps at Cosmic Noon behind the Hubble Frontier Fields Cluster MACS1149.6+2223

Author

Wang, X, Jones, TA, Treu, T, Morishita, T, Abramson, LE, Brammer, GB, Huang, KH, Malkan, MA, Schmidt, KB, Fontana, A, Grillo, C, Henry, AL, Karman, W, Kelly, PL, Mason, CA, Mercurio, A, Rosati, P, Sharon, K, Trenti, M, and Vulcani, B

Subjects

galaxies: abundances, galaxies: evolution, galaxies: formation, galaxies: high-redshift, gravitational lensing: strong, astro-ph.GA, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We combine deep Hubble Space Telescope grism spectroscopy with a new Bayesian method to derive maps of gas-phase metallicity for 10 star-forming galaxies at high redshift (). Exploiting lensing magnification by the foreground cluster MACS1149.6+2223, we reach sub-kiloparsec spatial resolution and push the limit of stellar mass associated with such high-z spatially resolved measurements below for the first time. Our maps exhibit diverse morphologies, indicative of various effects such as efficient radial mixing from tidal torques, rapid accretion of low-metallicity gas, and other physical processes that can affect the gas and metallicity distributions in individual galaxies. Based upon an exhaustive sample of all existing sub-kiloparesec resolution metallicity gradient measurements at high z, we find that predictions given by analytical chemical evolution models assuming a relatively extended star-formation profile in the early disk-formation phase can explain the majority of observed metallicity gradients, without involving galactic feedback or radial outflows. We observe a tentative correlation between stellar mass and metallicity gradients, consistent with the "downsizing" galaxy formation picture that more massive galaxies are more evolved into a later phase of disk growth, where they experience more coherent mass assembly at all radii and thus show shallower metallicity gradients. In addition to the spatially resolved analysis, we compile a sample of homogeneously cross-calibrated integrated metallicity measurements spanning three orders of magnitude in stellar mass at z ∼ 1.8. We use this sample to study the mass-metallicity relation (MZR) and find that the slope of the observed MZR can rule out the momentum-driven wind model at a 3σ confidence level.

Published

2017

14. The Grism Lens-amplified Survey from Space (Glass). IX. the Dual Origin of Low-mass Cluster Galaxies as Revealed by New Structural Analyses

Author

Morishita, T, Abramson, LE, Treu, T, Vulcani, B, Schmidt, KB, Dressler, A, Poggianti, BM, Malkan, MA, Wang, X, Huang, KH, Trenti, M, Bradač, M, and Hoag, A

Subjects

galaxies: clusters: general, galaxies: elliptical and lenticular, cD, galaxies: evolution, galaxies: structure, astro-ph.GA, galaxies: elliptical and lenticular, cD, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

Using deep Hubble Frontier Fields imaging and slitless spectroscopy from the Grism Survey from Space, we study 2200 cluster and 1748 field galaxies at 0.2 ≤ z ≤ 0.7 to determine the impact of environment on galaxy size and structure at stellar masses logM∗ M⊙ > 7.8, an unprecedented limit at these redshifts. Based on simple assumptions - re = f (M∗)-we find no significant differences in half-light radii (re) between equal-mass cluster or field systems. More complex analyses- re = f (M∗, U - V, n, z, ∑)-reveal local density (∑) to induce only a 7% ± 3% (95% confidence) reduction in re beyond what can be accounted for by U ? V color, Sersic index (n), and redshift (z) effects. Almost any size difference between galaxies in high- and low-density regions is thus attributable to their different distributions in properties other than environment. Indeed, we find a clear color-recorrelation in low-mass passive cluster galaxies (logM∗ M⊙ < 9.8) such that bluer systems have larger radii, with the bluest having sizes consistent with equal-mass star-forming galaxies. We take this as evidence that large- re low-mass passive cluster galaxies are recently acquired systems that have been environmentally quenched without significant structural transformation (e.g., by ram pressure stripping or starvation). Conversely, ∼ 20% of small-re low-mass passive cluster galaxies appear to have been in place since z ≳ 3. Given the consistency of the small- re galaxies' stellar surface densities (and even colors) with those of systems more than ten times as massive, our findings suggest that clusters mark places where galaxy evolution is accelerated for an ancient base population spanning most masses, with late-time additions quenched by environment-specific mechanisms mainly restricted to the lowest masses.

Published

2017

15. THE GRISM LENS-AMPLIFIED SURVEY from SPACE (GLASS). VII. the DIVERSITY of the DISTRIBUTION of STAR FORMATION in CLUSTER and FIELD GALAXIES at 0.3 ≤ z ≤ 0.7

Author

Vulcani, B, Treu, T, Schmidt, KB, Morishita, T, Dressler, A, Poggianti, BM, Abramson, L, Bradač, M, Brammer, GB, Hoag, A, Malkan, M, Pentericci, L, and Trenti, M

Subjects

galaxies: clusters: general, galaxies: evolution, galaxies: formation, galaxies: general, galaxies: star formation, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Astronomy & Astrophysics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

Exploiting the slitless spectroscopy taken as part of the Grism Lens-Amplified Survey from Space (GLASS), we present an extended analysis of the spatial distribution of star formation in 76 galaxies in 10 clusters at 0.3 < z < 0.7. We use 85 foreground and background galaxies in the same redshift range as a field sample. The samples are well matched in stellar mass (108-1011 M⊙) and star formation rate (0.5-50 M⊙ yr-1). We visually classify galaxies in terms of broad band morphology, H? morphology, and likely physical process acting on the galaxy. Most H? emitters have a spiral morphology (41% ± 8% in clusters, 51% ± 8% in the field), followed by mergers/interactions (28% ± 8%, 31% ±7%, respectively) and early-type galaxies (remarkably as high as 29% ±8% in clusters and 15% ± 6% in the field). A diversity of H? morphologies is detected, suggesting a diversity of physical processes. In clusters, 30% ± 8% of the galaxies present a regular morphology, mostly consistent with star formation diffused uniformly across the stellar population (mostly in the disk component, when present). The second most common morphology (28% ±8%) is asymmetric/jellyfish, consistent with rampressure stripping or other non-gravitational processes in 18% ± 8% of the cases. Ram-pressure stripping appears significantly less prominent in the field (2% ± 2%), where the most common morphology/mechanism appears to be consistent with minor gas-rich mergers or clump accretion. This work demonstrates that while environmentspecific mechanisms affect galaxy evolution at this redshift, they are diverse and their effects are subtle. A full understanding of this complexity requires larger samples and detailed and spatially resolved physical models.

Published

2016

16. THE GRISM LENS-AMPLIFIED SURVEY FROM SPACE (GLASS). III. A CENSUS OF Lyα EMISSION AT FROM HST SPECTROSCOPY

Author

Schmidt, KB, Treu, T, Bradač, M, Vulcani, B, Huang, K-H, Hoag, A, Maseda, M, Guaita, L, Pentericci, L, Brammer, GB, Dijkstra, M, Dressler, A, Fontana, A, Henry, AL, Jones, TA, Mason, C, Trenti, M, and Wang, X

Subjects

galaxies: high-redshift, methods: data analysis, techniques: spectroscopic, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics

Abstract

We present a census of Lyα emission at z ≳ 7, utilizing deep near-infrared Hubble Space Telescope grism spectroscopy from the first six completed clusters of the Grism Lens-Amplified Survey from Space (GLASS). In 24/159 photometrically selected galaxies we detect emission lines consistent with Lyα in the GLASS spectra. Based on the distribution of signal-to-noise ratios and on simulations, we expect the completeness and the purity of the sample to be 40%-100% and 60%-90%, respectively. For the objects without detected emission lines we show that the observed (not corrected for lensing magnification) 1σ flux limits reach 5 × 10-18 erg s-1 cm-2 per position angle over the full wavelength range of GLASS (0.8-1.7 μm). Based on the conditional probability of Lyα emission measured from the ground at z ∼ 7, we would have expected 12-18 Lyα emitters. This is consistent with the number of detections, within the uncertainties, confirming the drop in Lyα emission with respect to z ∼ 6. Deeper follow-up spectroscopy, here exemplified by Keck spectroscopy, is necessary to improve our estimates of completeness and purity and to confirm individual candidates as true Lyα emitters. These candidates include a promising source at z = 8.1. The spatial extent of Lyα in a deep stack of the most convincing Lyα emitters with 'z' = 7.2 is consistent with that of the rest-frame UV continuum. Extended Lyα emission, if present, has a surface brightness below our detection limit, consistent with the properties of lower-redshift comparison samples. From the stack we estimate upper limits on rest-frame UV emission line ratios and find fC IV/fLyα ≳ 0.32 and fC III/fLyα ≳ 0.32, in good agreement with other values published in the literature.

Published

2016

17. THE GRISM LENS-AMPLIFIED SURVEY FROM SPACE (GLASS). III. A CENSUS OF Lyα EMISSION AT z ≳ 7 FROM HST SPECTROSCOPY

Author

Schmidt, KB, Treu, T, Bradač, M, Vulcani, B, Huang, KH, Hoag, A, Maseda, M, Guaita, L, Pentericci, L, Brammer, GB, Dijkstra, M, Dressler, A, Fontana, A, Henry, AL, Jones, TA, Mason, C, Trenti, M, and Wang, X

Subjects

galaxies: high-redshift, methods: data analysis, techniques: spectroscopic, astro-ph.GA, Astronomy & Astrophysics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We present a census of Lyα emission at z ≳ 7, utilizing deep near-infrared Hubble Space Telescope grism spectroscopy from the first six completed clusters of the Grism Lens-Amplified Survey from Space (GLASS). In 24/159 photometrically selected galaxies we detect emission lines consistent with Lyα in the GLASS spectra. Based on the distribution of signal-to-noise ratios and on simulations, we expect the completeness and the purity of the sample to be 40%-100% and 60%-90%, respectively. For the objects without detected emission lines we show that the observed (not corrected for lensing magnification) 1σ flux limits reach 5 × 10-18 erg s-1 cm-2 per position angle over the full wavelength range of GLASS (0.8-1.7 μm). Based on the conditional probability of Lyα emission measured from the ground at z ∼ 7, we would have expected 12-18 Lyα emitters. This is consistent with the number of detections, within the uncertainties, confirming the drop in Lyα emission with respect to z ∼ 6. Deeper follow-up spectroscopy, here exemplified by Keck spectroscopy, is necessary to improve our estimates of completeness and purity and to confirm individual candidates as true Lyα emitters. These candidates include a promising source at z = 8.1. The spatial extent of Lyα in a deep stack of the most convincing Lyα emitters with 'z' = 7.2 is consistent with that of the rest-frame UV continuum. Extended Lyα emission, if present, has a surface brightness below our detection limit, consistent with the properties of lower-redshift comparison samples. From the stack we estimate upper limits on rest-frame UV emission line ratios and find fC IV/fLyα ≳ 0.32 and fC III/fLyα ≳ 0.32, in good agreement with other values published in the literature.

Published

2016

18. THE GRISM LENS-AMPLIFIED SURVEY from SPACE (GLASS). V. EXTENT and SPATIAL DISTRIBUTION of STAR FORMATION in zsim;.5 CLUSTER GALAXIES

Author

Vulcani, B, Treu, T, Schmidt, KB, Poggianti, BM, Dressler, A, Fontana, A, Bradac, M, Brammer, GB, Hoag, A, Huang, KH, Malkan, M, Pentericci, L, Trenti, M, Linden, AVD, Abramson, L, He, J, and Morris, G

Subjects

galaxies: clusters: general, galaxies: evolution, galaxies: formation, galaxies: general, galaxies: star formation, astro-ph.GA, astro-ph.CO, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry, Astronomy & Astrophysics, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural)

Abstract

We present the first study of the spatial distribution of star formation in zsim;.5 cluster galaxies. The analysis is based on data taken with the Wide Field Camera 3 as part of the Grism Lens-Amplified Survey from Space (GLASS). We illustrate the methodology by focusing on two clusters (MACS 0717.5+3745 and MACS 1423.8+2404) with different morphologies (one relaxed and one merging) and use foreground and background galaxies as a field control sample. The cluster+field sample consists of 42 galaxies with stellar masses in the range 108-1011 Moand star formation rates in the range 1-20 Mo yr-1. Both in clusters and in the field, Hα is more extended than the rest-frame UV continuum in 60% of the cases, consistent with diffuse star formation and inside-out growth. In ∼20% of the cases, the Hα emission appears more extended in cluster galaxies than in the field, pointing perhaps to ionized gas being stripped and/or star formation being enhanced at large radii. The peak of the Hα emission and that of the continuum are offset by less than 1 kpc. We investigate trends with the hot gas density as traced by the X-ray emission, and with the surface mass density as inferred from gravitational lens models, and find no conclusive results. The diversity of morphologies and sizes observed in Hα illustrates the complexity of the environmental processes that regulate star formation. Upcoming analysis of the full GLASS data set will increase our sample size by almost an order of magnitude, verifying and strengthening the inference from this initial data set.

Published

2015

19. THE GRISM LENS-AMPLIFIED SURVEY FROM SPACE (GLASS). I. SURVEY OVERVIEW AND FIRST DATA RELEASE

Author

Treu, T, Schmidt, KB, Brammer, GB, Vulcani, B, Wang, X, Bradač, M, Dijkstra, M, Dressler, A, Fontana, A, Gavazzi, R, Henry, AL, Hoag, A, Huang, K-H, Jones, TA, Kelly, PL, Malkan, MA, Mason, C, Pentericci, L, Poggianti, B, Stiavelli, M, Trenti, M, and von der Linden, A

Subjects

gravitational lensing: strong, astro-ph.GA, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics

Abstract

We give an overview of the Grism Lens Amplified Survey from Space (GLASS), a large Hubble Space Telescope program aimed at obtaining grism spectroscopy of the fields of 10 massive clusters of galaxies at redshift z = 0.308-0.686, including the Hubble Frontier Fields (HFF). The Wide Field Camera 3 (WFC3) yields near-infrared spectra of the cluster cores covering the wavelength range 0.81-1.69 μm through grisms G102 and G141, while the Advanced Camera for Surveys in parallel mode provides G800L spectra of the infall regions of the clusters. The WFC3 spectra are taken at two almost orthogonal position angles in order to minimize the effects of confusion. After summarizing the scientific drivers of GLASS, we describe the sample selection as well as the observing strategy and data processing pipeline. We then utilize MACS J0717.5+3745, a HFF cluster and the first one observed by GLASS, to illustrate the data quality and the high-level data products. Each spectrum brighter than is visually inspected by at least two co-authors and a redshift is measured when sufficient information is present in the spectra. Furthermore, we conducted a thorough search for emission lines through all of the GLASS WFC3 spectra with the aim of measuring redshifts for sources with continuum fainter than We provide a catalog of 139 emission-line-based spectroscopic redshifts for extragalactic sources, including three new redshifts of multiple image systems (one probable, two tentative). In addition to the data itself, we also release software tools that are helpful to navigate the data.

Published

2015

20. THE GRISM LENS-AMPLIFIED SURVEY FROM SPACE (GLASS). IV. MASS RECONSTRUCTION OF THE LENSING CLUSTER ABELL 2744 FROM FRONTIER FIELD IMAGING AND GLASS SPECTROSCOPY

Author

Wang, X, Hoag, A, Huang, K-H, Treu, T, Bradač, M, Schmidt, KB, Brammer, GB, Vulcani, B, Jones, TA, Ryan, RE, Amorín, R, Castellano, M, Fontana, A, Merlin, E, and Trenti, M

Subjects

galaxies: clusters: individual, galaxies: evolution, galaxies: high-redshift, astro-ph.GA, astro-ph.CO, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Astronomy & Astrophysics

Abstract

We present a strong and weak lensing reconstruction of the massive cluster Abell 2744, the first cluster for which deep Hubble Frontier Fields (HFF) images and spectroscopy from the Grism Lens-Amplified Survey from Space (GLASS) are available. By performing a targeted search for emission lines in multiply imaged sources using the GLASS spectra, we obtain five high-confidence spectroscopic redshifts and two tentative ones. We confirm one strongly lensed system by detecting the same emission lines in all three multiple images. We also search for additional line emitters blindly and use the full GLASS spectroscopic catalog to test reliability of photometric redshifts for faint line emitters. We see a reasonable agreement between our photometric and spectroscopic redshift measurements, when including nebular emission in photometric redshift estimations. We introduce a stringent procedure to identify only secure multiple image sets based on colors, morphology, and spectroscopy. By combining 7 multiple image systems with secure spectroscopic redshifts (at 5 distinct redshift planes) with 18 multiple image systems with secure photometric redshifts, we reconstruct the gravitational potential of the cluster pixellated on an adaptive grid, using a total of 72 images. The resulting mass map is compared with a stellar mass map obtained from the deep Spitzer Frontier Fields data to study the relative distribution of stars and dark matter in the cluster. We find that the stellar to total mass ratio varies substantially across the cluster field, suggesting that stars do not trace exactly the total mass in this interacting system. The maps of convergence, shear, and magnification are made available in the standard HFF format.

Published

2015

21. THROUGH THE LOOKING GLASS: HST SPECTROSCOPY OF FAINT GALAXIES LENSED BY THE FRONTIER FIELDS CLUSTER MACSJ0717.5+3745

Author

Schmidt, KB, Treu, T, Brammer, GB, Bradač, M, Wang, X, Dijkstra, M, Dressler, A, Fontana, A, Gavazzi, R, Henry, AL, Hoag, A, Jones, TA, Kelly, PL, Malkan, MA, Mason, C, Pentericci, L, Poggianti, B, Stiavelli, M, Trenti, M, von der Linden, A, and Vulcani, B

Subjects

Clinical Research, galaxies: clusters: individual, galaxies: evolution, galaxies: high-redshift, astro-ph.GA, astro-ph.CO, Astronomical and Space Sciences, Astronomy & Astrophysics

Abstract

The Grism Lens-Amplified Survey from Space (GLASS) is a Hubble Space Telescope (HST) Large Program, which will obtain 140 orbits of grism spectroscopy of the core and infall regions of 10 galaxy clusters, selected to be among the very best cosmic telescopes. Extensive HST imaging is available from many sources including the CLASH and Frontier Fields programs. We introduce the survey by analyzing spectra of faint multiply-imaged galaxies and z ≳ 6 galaxy candidates obtained from the first 7 orbits out of 14 targeting the core of the Frontier Fields cluster MACSJ0717.5+3745. Using the G102 and G141 grisms to cover the wavelength range 0.8-1.7 μm, we confirm four strongly lensed systems by detecting emission lines in each of the images. For the 9 z ≳ 6 galaxy candidates clear from contamination, we do not detect any emission lines down to a 7 orbit 1σ noise level of ∼5 × 10 -18 erg s-1 cm-2. Taking lensing magnification into account, our flux sensitivity reaches ∼0.2-5 × 10-18 erg s-1cm-2. These limits over an uninterrupted wavelength range rule out the possibility that the high-z galaxy candidates are instead strong line emitters at lower redshift. These results show that by means of careful modeling of the background - and with the assistance of lensing magnification - interesting flux limits can be reached for large numbers of objects, avoiding pre-selection and the wavelength restrictions inherent to ground-based multi-slit spectroscopy. These observations confirm the power of slitless HST spectroscopy even in fields as crowded as a cluster core. © 2014. The American Astronomical Society. All rights reserved..

Published

2014

22. The history of star-forming regions in the tails of six GASP jellyfish galaxies observed with the Hubble Space Telescope.

Author

Werle, A., Giunchi, E., Poggianti, B., Gullieuszik, M., Moretti, A., Zanella, A., Tonnesen, S., Fritz, J., Vulcani, B., Bacchini, C., Akerman, N., Kulier, A., Tomicic, N., Smith, R., and Wolter, A.

Subjects

SPACE telescopes, INTERSTELLAR medium, GALAXIES, STELLAR populations, STELLAR mass

Abstract

Aims. In this work, we aim to characterize the stellar populations of star-forming regions detached from the stellar disks of galaxies undergoing ram-pressure stripping. Methods. Using images collected with the WFC3 camera on board of the Hubble Space Telescope, we detected stellar clumps in continuum-subtracted Hα and the ultraviolet (F275W filter); such clumps are often embedded in larger regions (star-forming complexes) detected in the optical (F606W filter). Our sample includes 347 Hα clumps, 851 F275W clumps, and 296 star-forming complexes. We modeled the photometry of these objects in five bands using BAGPIPES to obtain their stellar population parameters. Results. The median mass-weighted stellar ages are 27 Myr for Hα clumps and 39 Myr for F275W clumps and star-forming complexes, but the oldest stars in the complexes can be older than ∼300 Myr which indicates that star formation is sustained for long periods of time. Stellar masses vary from 103.5 to 107.1 M⊙, with star-forming complexes being more massive objects in the sample. Clumps and complexes found further away from the host galaxy are on average younger, less massive, and less obscured by dust. We interpret these trends as due to the effect of ram pressure in different phases of the interstellar medium. Hα clumps form a well-defined sequence in the stellar mass–SFR plane with a slope of 0.73. Some F275W clumps and star-forming complexes follow the same sequence while others stray away from it and passively age. The difference in mean stellar age between a complex and its youngest embedded clump scales with the distance between the clump and the center of the optical emission of the complex, with the most displaced clumps being hosted by the most elongated complexes. This is consistent with a fireball-like morphology, where star formation proceeds in a small portion of the complex while older stars are left behind producing a linear stellar population gradient. The stellar masses of star-forming complexes are consistent with the ones of globular clusters, but their stellar mass surface densities are lower by 2 dex, and their properties are more consistent with the population of dwarf galaxies in clusters. [ABSTRACT FROM AUTHOR]

Published

2024

23. The effect of cluster dynamical state on ram-pressure stripping.

Author

Lourenço, Ana C C, Jaffé, Y L, Vulcani, B, Biviano, A, Poggianti, B, Moretti, A, Kelkar, K, Crossett, J P, Gitti, M, Smith, R, Laganá, T F, Gullieuszik, M, Ignesti, A, McGee, S, Wolter, A, Sonkamble, S, and Müller, A

Subjects

GALAXY clusters, CLUSTER sampling, MERGERS & acquisitions, GALACTIC evolution, GALAXIES, JELLYFISHES

Abstract

Theoretical and observational studies have suggested that ram-pressure stripping (RPS) by the intracluster medium can be enhanced during cluster interactions, boosting the formation of the 'jellyfish' galaxies. In this work, we study the incidence of galaxies undergoing RPS in 52 clusters of different dynamical states. We use optical data from the WINGS/OmegaWINGS surveys and archival X-ray data to characterize the dynamical state of our cluster sample, applying eight different proxies. We then compute the number of RPS candidates relative to the infalling population of blue late-type galaxies within a fixed circular aperture in each cluster. We find no clear correlation between the fractions of RPS candidates and the different cluster dynamical state proxies considered. These fractions also show no apparent correlation with cluster mass. To construct a dynamical state classification closer to a merging 'sequence', we perform a visual classification of the dynamical states of the clusters, combining information available in optical, X-ray, and radio wavelengths. We find a mild increase in the RPS fraction in interacting clusters with respect to all other classes (including post-mergers). This mild enhancement could hint at a short-lived enhanced RPS in ongoing cluster mergers. However, our results are not statistically significant due to the low galaxy numbers. We note this is the first homogeneous attempt to quantify the effect of cluster dynamical state on RPS using a large cluster sample, but even larger (especially wider) multiwavelength surveys are needed to confirm the results. [ABSTRACT FROM AUTHOR]

Published

2023

24. The morphological transformation of ram pressure stripped galaxies: a pathway from late to early galaxy types.

Author

Marasco, A, Poggianti, B M, Fritz, J, Werle, A, Vulcani, B, Moretti, A, Gullieuszik, M, and Kulier, A

Subjects

GALAXY clusters, GALAXIES, GALACTIC evolution, STELLAR populations, STAR formation, OPTICAL images

Abstract

We investigate how the ageing of stellar populations can drive a morphological transformation in galaxies whose star formation (SF) activity has been quenched on short time-scales, like in cluster galaxies subject to ram pressure stripping from the intracluster medium. For this purpose, we use a sample of 91 galaxies with MUSE data from the GAs Stripping Phenomena in galaxies with MUSE (GASP) programme and of their spatially resolved SF history derived with the spectral modelling software sinopsis. We simulate the future continuation of the SF activities by exploring two quenching scenarios: an instantaneous truncation of the SF across the whole disc, and an outside-in quenching with typical stripping time-scales of |$0.5\,$| and |$1\, {\rm Gyr}$|⁠. For each scenario, we produce mock MUSE spectroscopic data cubes and optical images for our galaxies during their evolution, and classify their morphology using a new diagnostic tool, calibrated on cluster galaxies from the OmegaWINGS Survey. We find that, in all scenarios considered, the initial galaxy population dominated by blue-cloud spirals (⁠|$\sim 90~{{\ \rm per\ cent}}$|⁠) evolves into a mixed population mostly composed by red-sequence spirals (⁠|$50\!-\!55~{{\ \rm per\ cent}}$|⁠) and lenticulars (⁠|$\sim 40~{{\ \rm per\ cent}}$|⁠). The morphology transformation is completed after just 1.5–3.5 Gyr, proceeding faster in more efficient quenching scenarios. Our results indicate that, even without accounting for dynamical processes, SF quenching caused by the harsh environment of a cluster can significantly affect the morphology of the infalling galaxy population on timescales of a few Gyr. [ABSTRACT FROM AUTHOR]

Published

2023

25. Early Results from GLASS-JWST. XVIII. A First Morphological Atlas of the 1 < z < 5 Universe in the Rest-frame Optical.

Author

Jacobs, C., Glazebrook, K., Calabrò, A., Treu, T., Nannayakkara, T., Jones, T., Merlin, E., Abraham, R., Stevens, A. R. H., Vulcani, B., Yang, L., Bonchi, A., Boyett, K., Bradač, M., Castellano, M., Fontana, A., Marchesini, D., Malkan, M., Mason, C., and Morishita, T.

Published

2023

26. VST-GAME: Galaxy assembly as a function of mass and environment with VST: Photometric assessment and density field of MACSJ0416.

Author

Estrada, N., Mercurio, A., Vulcani, B., Rodighiero, G., Nonino, M., Annunziatella, M., Rosati, P., Grillo, C., Caminha, G. B., Angora, G., Biviano, A., Brescia, M., De Lucia, G., Demarco, R., Girardi, M., Gobat, R., and Lemaux, B. C.

Subjects

GALACTIC redshift, GALACTIC evolution, SPECTRAL energy distribution, STELLAR mass, GALAXIES, GALAXY clusters, REDSHIFT

Abstract

Context. Observational studies have widely demonstrated that galaxy physical properties are strongly affected by the surrounding environment. On one side, gas inflows provide galaxies with new fuel for star formation. On the other side, the high temperatures and densities of the medium are expected to induce quenching in the star formation. Observations of large structures, in particular filaments at the cluster outskirts (r > 2r200), are currently limited to the low redshift Universe. Deep and wide photometric data, better if combined with spectroscopic redshifts, are required to explore several scenarios on galaxy evolution at intermediate redshift. Aims. We present a multi-band dataset for the cluster MACS J0416.1-2403 (z = 0.397), observed in the context of the Galaxy Assembly as a function of Mass and Environment with the VLT Survey Telescope (VST-GAME) survey. The project is aimed at gathering deep (r < 24.4) and wide (approx. 20x20 Mpc2) observations at optical (u, ɡ, r, i, VST) wavelengths for six massive galaxy clusters at 0.2 < z < 0.6, complemented with near-infrared data (Y, J, Ks, VISTA, ESO public survey GCAV). The aim is to investigate galaxy evolution in a wide range of stellar masses and environmental conditions. This work describes the photometric analysis of the cluster and the definition of a density field, which will be a key ingredient for further studies on galaxy properties in the cluster outskirts. Methods. We extracted sources paying particular attention to recovering the faintest ones and simultaneously flagging point sources and sources with photometry affected by artifacts in the images. We combined all the extractions in a multiband catalog that is used to derive photometric redshifts through spectral energy distribution (SED) fitting. We then defined cluster memberships up to 5r200 from the cluster core and measure the density field, comparing galaxy properties in different environments. Results. We find that the ɡ – r colors show bimodal behaviors in all the environments, but the peak of the distribution of red galaxies shifts toward redder colors with increasing density, and the fraction of galaxies in the blue cloud increases with decreasing density. We also found three overdense regions in the cluster outskirts at r ~ 5r200. Galaxies in these structures have mean densities and luminosities similar to those of the cluster core. The color of galaxies suggests the presence of evolved galaxy populations, an insight into preprocessing phenomena over these substructures. We release the multiband catalog, down to the completeness limit of r < 24.4 mag. [ABSTRACT FROM AUTHOR]

Published

2023

27. Ultraviolet imaging observations of three jellyfish galaxies: star formation suppression in the centre and ongoing star formation in stripped tails.

Author

George, K, Poggianti, B M, Tomičić, N, Postma, J, Côté, P, Fritz, J, Ghosh, S K, Gullieuszik, M, Hutchings, J B, Moretti, A, Omizzolo, A, Radovich, M, Sreekumar, P, Subramaniam, A, Tandon, S N, and Vulcani, B

Subjects

STAR formation, GALAXY formation, JELLYFISHES, SPIRAL galaxies, GALAXY clusters, GALAXIES

Abstract

Spiral galaxies undergo strong ram-pressure effects when they fall into the galaxy cluster potential. As a consequence, their gas is stripped to form extended tails within which star formation can happen, giving them the typical jellyfish appearance. The ultraviolet imaging observations of jellyfish galaxies provide an opportunity to understand ongoing star formation in the stripped tails. We report the ultraviolet observations of the jellyfish galaxies JW39, JO60, JO194 and compare with observations in optical continuum and Hα. We detect knots of star formation in the disc and tails of the galaxies and find that their UV and Hα flux are well correlated. The optical emission line ratio maps of these galaxies are used to identify for every region the emission mechanism, due to either star formation, LINER or a mix of the two phenomena. The star-forming regions in the emission line maps match very well with the regions having significant UV flux. The central regions of two galaxies (JW39, JO194) show a reduction in UV flux which coincides with composite or LINER regions in the emission line maps. The galaxies studied here demonstrate significant star formation in the stripped tails, suppressed star formation in the central regions and present a possible case of accelerated quenching happening in jellyfish galaxies. [ABSTRACT FROM AUTHOR]

Published

2023

28. Early Results From GLASS-JWST. XII. The Morphology of Galaxies at the Epoch of Reionization.

Author

Treu, T., Calabrò, A., Castellano, M., Leethochawalit, N., Merlin, E., Fontana, A., Yang, L., Morishita, T., Trenti, M., Dressler, A., Mason, C., Paris, D., Pentericci, L., Roberts-Borsani, G., Vulcani, B., Boyett, K., Bradac, M., Glazebrook, K., Jones, T., and Marchesini, D.

Published

2023

29. Early Results from GLASS-JWST. X. Rest-frame UV-optical Properties of Galaxies at 7 < z < 9.

Author

Leethochawalit, N., Trenti, M., Santini, P., Yang, L., Merlin, E., Castellano, M., Fontana, A., Treu, T., Mason, C., Glazebrook, K., Jones, T., Vulcani, B., Nanayakkara, T., Marchesini, D., Mascia, S., Morishita, T., Roberts-Borsani, G., Bonchi, A., Paris, D., and Boyett, K.

Published

2023

30. GASP XXXVII: The Most Extreme Jellyfish Galaxies Compared with Other Disk Galaxies in Clusters, an H i Study.

Author

Luber, N., MĂĽller, A., van Gorkom, J. H., Poggianti, B. M., Vulcani, B., Franchetto, A., Bacchini, C., Bettoni, D., Deb, T., Fritz, J., Gullieuszik, M., Ignesti, A., Jaffe, Y., Moretti, A., Paladino, R., Ramatsoku, M., Serra, P., Smith, R., Tomicic, N., and Tonnesen, S.

Subjects

GALAXY clusters, GALAXIES, JELLYFISHES, RELATIVE velocity, STELLAR mass, DISK galaxies, SPIRAL galaxies

Abstract

We present the results of a Very Large Array H i imaging survey aimed at understanding why some galaxies develop long extraplanar H α tails, becoming extreme jellyfish galaxies. The observations are centered on five extreme jellyfish galaxies optically selected from the WINGS and OMEGAWINGS surveys and confirmed to have long H α tails through MUSE observations. Each galaxy is located in a different cluster. In the observations, there are in total 88 other spiral galaxies within the field of view (40′ Ă— 40′) and observed bandwidth (6500 km sâˆ'1). We detect 13 of these 88 spirals, plus one uncataloged spiral, with H i masses ranging from 1 to 7 Ă— 109 M ⊙. Many of these detections have extended H i disks, two show direct evidence for ram pressure stripping, and others are possibly affected by tidal forces and/or ram pressure stripping. We stack the 75 nondetected spiral galaxies and find an average H i mass of 1.9 Ă— 108 M ⊙, which, given their average stellar mass, implies that they are very H i deficient. Comparing the extreme jellyfish galaxies to the other disk galaxies, we find that they are at smaller projected distance from the cluster center, and have a higher stellar mass and higher relative velocity than all other H i detections and most nondetections. We conclude that the high stellar mass allows extreme jellyfish galaxies to fall deeply into the cluster before being stripped, and the surrounding ICM pressure gives rise to their spectacular star-forming tails. [ABSTRACT FROM AUTHOR]

Published

2022

31. The dynamical state of Abell 2399: a bullet-like cluster.

Author

Lourenço, Ana C C, Lopes, P A A, Laganá, T F, Nascimento, R S, Machado, R E G, Moura, M T, Jaffé, Y L, Ribeiro, A L, Vulcani, B, Moretti, A, and Riguccini, L A

Subjects

GAUSSIAN mixture models, THERMAL properties, GALAXY clusters

Abstract

While there are many ways to identify substructures in galaxy clusters using different wavelengths, each technique has its own caveat. In this paper, we conduct a detailed substructure search and dynamical state characterization of Abell 2399, a galaxy cluster in the local Universe (z ∼ 0.0579), by performing a multiwavelength analysis and testing the results through hydrodynamical simulations. In particular, we apply a Gaussian mixture model to the spectroscopic data from SDSS, WINGS, and OmegaWINGS Surveys to identify substructures. We further use public XMM–Newton data to investigate the intracluster medium (ICM) thermal properties, creating temperature, metallicity, entropy, and pressure maps. Finally, we run hydrodynamical simulations to constrain the merger stage of this system. The ICM is very asymmetrical and has regions of temperature and pressure enhancement that evidence a recent merging process. The optical substructure analysis retrieves the two main X-ray concentrations. The temperature, entropy, and pressure are smaller in the secondary clump than in the main clump. On the other hand, its metallicity is considerably higher. This result can be explained by the scenario found by the hydrodynamical simulations where the secondary clump passed very near to the centre of the main cluster possibly causing the galaxies of that region to release more metals through the increase of ram-pressure stripping. [ABSTRACT FROM AUTHOR]

Published

2020

32. The Grism Lens-Amplified Survey from Space (GLASS) – XIII. G800L optical spectra from the parallel fields.

Author

Abramson, L E, Brammer, G B, Schmidt, K B, Treu, T, Morishita, T, Wang, X, Vulcani, B, and Henry, A

Subjects

OPTICAL spectra, QUASARS, GALAXY clusters, SPACE telescopes, STAR formation, GLASS

Abstract

We present a catalogue of 22 755 objects with slitless, optical, Hubble Space Telescope (HST) spectroscopy from the Grism Lens-Amplified Survey from Space (GLASS). The data cover ∼220 sq. arcmin to 7-orbit (∼10 ks) depth in 20 parallel pointings of the Advanced Camera for Survey's G800L grism. The fields are located 6 arcmin away from 10 massive galaxy clusters in the HFF and CLASH footprints. 13 of the fields have ancillary HST imaging from these or other programs to facilitate a large number of applications, from studying metal distributions at z ∼ 0.5, to quasars at z ∼ 4, to the star formation histories of hundreds of galaxies in between. The spectroscopic catalogue has a median redshift of 〈 z 〉 = 0.60 with a median uncertainty of |$\Delta z / (1+z)\lesssim 2{{\ \rm per\ cent}}$| at |$F814\mathit{ W}\lesssim 23$|  AB. Robust continuum detections reach a magnitude fainter. The 5 σ limiting line flux is |$f_{\rm lim}\approx 5\times 10^{-17}\rm ~erg~s^{-1}~cm^{-2}$| and half of all sources have 50 per cent of pixels contaminated at ≲1 per cent. All sources have 1D and 2D spectra, line fluxes/uncertainties and identifications, redshift probability distributions, spectral models, and derived narrow-band emission-line maps from the Grism Redshift and Line Analysis tool (grizli). We provide other basic sample characterizations, show data examples, and describe sources and potential investigations of interest. All data and products will be available online along with software to facilitate their use. [ABSTRACT FROM AUTHOR]

Published

2020

33. Evolution histories of massive galaxies at z ∼2 over the past 3 Gyr.

Author

Morishita, T., Abramson, L. E., Treu, T., Brammer, G. B., Jones, T., Kelly, P., Stiavelli, M., Trenti, M., Vulcani, B., Wang, X., Boquien, Médéric, Lusso, Elisabeta, Gruppioni, Carlotta, and Tissera, Patricia

Abstract

We study star formation and metallicity enrichment histories of 24 massive galaxies at 1.6 < z < 2.5. Deep slitless spectroscopy + imaging data set collected from multiple HST surveys allows robust determination of their SEDs. Our new SED modeling with no functional assumptions on star formation histories revels that 1. most of the sample galaxies have already formed >50% of their extant masses ∼1.5 Gyr before the time of observed redshifts, with a trend where more massive galaxies form earlier, 2. most of our galaxies already have stellar metallicities compatible with those of local early-type galaxies, and 3. inferred metallicities are on average ∼ 0.25 dex higher than observed gas-phase metallicities of star forming galaxies at the time of their formation. Continuation of low-level star formation, rather than abrupt termination of star forming activity, may explain the observed gap of metallicities. [ABSTRACT FROM AUTHOR]

Published

2019

34. GASP – XVII. H  i imaging of the jellyfish galaxy JO206: gas stripping and enhanced star formation.

Author

Ramatsoku, M, Serra, P, Poggianti, B M, Moretti, A, Gullieuszik, M, Bettoni, D, Deb, T, Fritz, J, van Gorkom, J H, Jaffé, Y L, Tonnesen, S, Verheijen, M A W, Vulcani, B, Hugo, B, Józsa, G I G, Maccagni, F M, Makhathini, S, Ramaila, A, Smirnov, O, and Thorat, K

Subjects

STAR formation, STELLAR density (Stellar population), SPIRAL galaxies, STELLAR mass, IONIZED gases, GALAXY clusters

Abstract

We present VLA H  i observations of JO206, a prototypical ram-pressure-stripped galaxy in the GASP sample. This massive galaxy (M * = 8.5 × 1010 M⊙) is located at a redshift of z  = 0.0513, near the centre of the low-mass galaxy cluster, IIZw108 (σ ∼ 575  km s−1). JO206 is characterized by a long tail (≥90 kpc) of ionized gas stripped away by ram pressure. We find a similarly long H  i tail in the same direction as the ionized gas tail and measure a total H  i mass of 3.2 × 109 M⊙. This is about half the expected H  i mass given the stellar mass and surface density of JO206. A total of 1.8 × 109 M⊙ (60 per cent) of the detected H  i is in the gas-stripped tail. An analysis of the star formation rate shows that the galaxy is forming more stars compared to galaxies with the same stellar and H  i mass. On average we find an H  i gas depletion time of ∼0.5 Gyr which is about four times shorter than that of 'normal' spiral galaxies. We performed a spatially resolved analysis of the relation between star formation rate density and gas density in the disc and tail of the galaxy at the resolution of our H  i data. The star formation efficiency of the disc is about 10 times higher than that of the tail at fixed H  i surface densities. Both the inner and outer parts of JO206 show an enhanced star formation compared to regions of similar H  i surface density in field galaxies. The enhanced star formation is due to ram-pressure stripping during the galaxy's first infall into the cluster. [ABSTRACT FROM AUTHOR]

Published

2019

35. GASP XVIII: star formation quenching due to AGN feedback in the central region of a jellyfish galaxy.

Author

George, K, Poggianti, B M, Bellhouse, C, Radovich, M, Fritz, J, Paladino, R, Bettoni, D, Jaffé, Y, Moretti, A, Gullieuszik, M, Vulcani, B, Fasano, G, Stalin, C S, Subramaniam, A, and Tandon, S N

Subjects

STAR formation, ACTIVE galactic nuclei, DISK galaxies, JELLYFISHES, GALAXIES, SPIRAL galaxies

Abstract

We report evidence for star formation quenching in the central 8.6 kpc region of the jellyfish galaxy JO201 that hosts an active galactic nucleus (AGN), while undergoing strong ram-pressure stripping. The ultraviolet imaging data of the galaxy disc reveal a region with reduced flux around the centre of the galaxy and a horse-shoe-shaped region with enhanced flux in the outer disc. The characterization of the ionization regions based on emission line diagnostic diagrams shows that the region of reduced flux seen in the ultraviolet is within the AGN-dominated area. The CO J2−1 map of the galaxy disc reveals a cavity in the central region. The image of the galaxy disc at redder wavelengths (9050–9250 Å) reveals the presence of a stellar bar. The star formation rate map of the galaxy disc shows that the star formation suppression in the cavity occurred in the last few 108 yr. We present several lines of evidence supporting the scenario that suppression of star formation in the central region of the disc is most likely due to the feedback from the AGN. The observations reported here make JO201 a unique case of AGN feedback and environmental effects suppressing star formation in a spiral galaxy. [ABSTRACT FROM AUTHOR]

Published

2019

36. The XXL Survey: XXXVII. The role of the environment in shaping the stellar population properties of galaxies at 0.1 ≤ z ≤ 0.5.

Author

Guglielmo, V., Poggianti, B. M., Vulcani, B., Maurogordato, S., Fritz, J., Bolzonella, M., Fotopoulou, S., Adami, C., and Pierre, M.

Subjects

GALAXIES, STELLAR populations, GALAXY formation, STAR formation, DEFINITIONS, GALAXY clusters

Abstract

Exploiting a sample of galaxies drawn from the XXL-North multiwavelength survey, we present an analysis of the stellar population properties of galaxies at 0.1 ≤ z ≤ 0.5, by studying galaxy fractions and the star formation rate (SFR)–stellar mass (M⋆) relation. Furthermore, we exploit and compare two parametrisations of environment. When adopting a definition of "global" environment, we consider separately cluster virial (r ≤ 1r200) and outer (1r200 <  r ≤ 3r200) members and field galaxies. We also distinguish between galaxies that belong or do not belong to superclusters, but never find systematic differences between the two subgroups. When considering the "local" environment, we take into account the projected number density of galaxies in a fixed aperture of 1 Mpc in the sky. We find that regardless of the environmental definition adopted, the fraction of blue or star-forming galaxies is the highest in the field or least dense regions and the lowest in the virial regions of clusters or highest densities. Furthermore, the fraction of star-forming galaxies is higher than the fraction of blue galaxies, regardless of the environment. This result is particularly evident in the virial cluster regions, most likely reflecting the different star formation histories of galaxies in different environments. Also the overall SFR–M⋆ relation does not seem to depend on the parametrisation adopted. Nonetheless, the two definitions of environment lead to different results as far as the fraction of galaxies in transition between the star-forming main sequence and the quenched regime is concerned. In fact, using the local environment the fraction of galaxies below the main sequence is similar at low and high densities, whereas in clusters (and especially within the virial radii) a population with reduced SFR with respect to the field is observed. Our results show that the two parametrisations adopted to describe the environment have different physical meanings, i.e. are intrinsically related to different physical processes acting on galaxy populations and are able to probe different physical scales. [ABSTRACT FROM AUTHOR]

Published

2019

37. GASP. XV. A MUSE view of extreme ram-pressure stripping along the line of sight: physical properties of the jellyfish galaxy JO201.

Author

Bellhouse, Callum, Jaffé, Y L, McGee, S L, Poggianti, B M, Smith, R, Tonnesen, S, Fritz, J, Hau, G K T, Gullieuszik, M, Vulcani, B, Fasano, G, Moretti, A, George, K, Bettoni, D, D'Onofrio, M, Omizzolo, A, and Sheen, Y-K

Subjects

DISK galaxies, ACTIVE galactic nuclei, GALAXIES, JELLYFISHES, AGE of stars, STELLAR populations, PLANETARY nebulae

Abstract

We present a study of the physical properties of JO201, a unique disc galaxy with extended tails undergoing extreme ram-pressure stripping (RPS) as it moves through the massive cluster Abell 85 at supersonic speeds mostly along the line of sight. JO201 was observed with multi-unit spectroscopic explorer as part of the GASP programme. In a previous paper (GASP II) we studied the stellar and gas kinematics. In this paper we present emission-line ratios, gas-phase metallicities, and ages of the stellar populations across the galaxy disc and tails. We find that while the emission at the core of the galaxy is dominated by an active galactic nucleus (AGN), the disc is composed of star-forming knots surrounded by excited diffuse gas. The collection of star-forming knots presents a metallicity gradient steadily decreasing from the centre of the galaxy outwards, and the ages of the stars across the galaxy show that the tails formed ≲109 yr ago. This result is consistent with an estimate of the stripping time-scale (∼1 Gyr), obtained from a toy orbital model. Overall, our results independently and consistently support a scenario in which a recent or ongoing event of intense RPS acting from the outer disc inwards, causes removal and compression of gas, thus altering the AGN and star formation activity within and around the galaxy. [ABSTRACT FROM AUTHOR]

Published

2019

38. The strong correlation between post-starburst fraction and environment.

Author

Paccagnella, A, Vulcani, B, Poggianti, B M, Moretti, A, Fritz, J, Gullieuszik, M, and Fasano, G

Subjects

*STARBURSTS, *GALACTIC evolution, *STAR formation, *SPECTRUM analysis, *STATISTICAL correlation

Abstract

We examine a magnitude limited (MB ≤ −18.7) sample of post-starburst (PSB) galaxies at 0.03 < |$z$| < 0.11 in the different environments from the spectroscopic data set of the Padova Millennium Galaxy Group Catalogue and compare their incidence and properties with those of passive (PAS) and emission line galaxies (EML). PSB galaxies have a quite precise lifetime (<1–1.5 Gyr), and they hold important clues for understanding galaxy evolution. While the properties (stellar mass, absolute magnitude, colour) of PSBs do not depend on environment, their frequency increases going from single galaxies to binary systems to groups, both considering the incidence with respect to the global number of galaxies and to the number of currently |$+$| recently star-forming galaxies. Including in our analysis, the sample of cluster PSBs drawn from the WIde-field Nearby Galaxy-cluster Survey presented in Paccagnella et al. we extend the halo mass range covered and present a coherent picture of the effect of the environment on galaxy transformations. We find that the PSB/(PSB  |$+$|  EML) fraction steadily increases with halo mass going from 1 per cent in |$10^{11} \, \mathrm{M}_{\odot}$| haloes to ∼15 per cent in the most massive haloes (⁠|$10^{15.5} \, \mathrm{M}_{\odot}$|⁠). This provides evidence that processes specific to the densest environments, such as ram-pressure stripping, are responsible for a large fraction of PSB galaxies in dense environments. These processes act on a larger fraction of galaxies than alternative processes leading to PSB galaxies in the sparsest environments, such as galaxy interactions. [ABSTRACT FROM AUTHOR]

Published

2019

39. Morphology rather than environment drives the SFR–mass relation in the local universe.

Author

Calvi, R, Vulcani, B, Poggianti, B M, Moretti, A, Fritz, J, and Fasano, G

Subjects

*STAR formation, *STELLAR evolution, *GALAXIES, *GALACTIC evolution, *SPIRAL galaxies

Abstract

Exploiting a sample of 680 star-forming galaxies from the Padova Millennium Galaxy Group Catalog (PM2GC; Calvi, Poggianti & Vulcani 2011) in the range 0.038 ≤ |$z$| ≤ 0.104, we present a detailed analysis of the star formation rate (SFR)–stellar mass (M *) and specific SFR (SSFR)– M *relations as a function of environment. We adopt three different parametrizations of environment to probe different scales. We consider separately (1) galaxies in groups, binary and single systems, defined in terms of a friends-of-friends algorithm, (2) galaxies located at different projected local densities, and (3) galaxies in haloes of different mass. Overall, above log M */ M > 10.25 and SSFR > 10−12yr−1, the SFR– M *, and SSFR– M *relations do not depend on environment, when the global environment is used, while when the halo mass is considered, high-mass haloes might have a systematically lower (S)SFR– M ⋆relation. Finally, when local densities are exploited, at any given mass galaxies in less dense environments have systematically higher values of SFR. All the relations are characterized by a large scatter (σ ∼ 0.6), which is due to the coexistence of galaxies of different morphological types. Indeed, at any given mass, late types are characterized by systematically higher values of SFR and SSFR than S0s and ellipticals. Galaxies of the same morphology show similar trends in all the environments, but their incidence strongly depends on environment and on the environmental parametrization adopted, with late types generally becoming less common in denser environments, contrasted by the increase of ellipticals and/or S0s. Our results suggest that in the local Universe morphology and local interactions, probed by the local density parametrization, have dominant roles in driving the characteristics of the SFR– M *relation. [ABSTRACT FROM AUTHOR]

Published

2018

40. Evolution histories of massive galaxies at z ∼2 over the past 3 Gyr.

Author

Morishita, T., Abramson, L. E., Treu, T., Brammer, G. B., Jones, T., Kelly, P., Stiavelli, M., Trenti, M., Vulcani, B., Wang, X., Boquien, Médéric, Lusso, Elisabeta, Gruppioni, Carlotta, and Tissera, Patricia

Abstract

We study star formation and metallicity enrichment histories of 24 massive galaxies at 1.6 < z < 2.5. Deep slitless spectroscopy + imaging data set collected from multiple HST surveys allows robust determination of their SEDs. Our new SED modeling with no functional assumptions on star formation histories revels that 1. most of the sample galaxies have already formed >50% of their extant masses ∼1.5 Gyr before the time of observed redshifts, with a trend where more massive galaxies form earlier, 2. most of our galaxies already have stellar metallicities compatible with those of local early-type galaxies, and 3. inferred metallicities are on average ∼ 0.25 dex higher than observed gas-phase metallicities of star forming galaxies at the time of their formation. Continuation of low-level star formation, rather than abrupt termination of star forming activity, may explain the observed gap of metallicities. [ABSTRACT FROM AUTHOR]

Published

2018

41. GASP – X. APEX observations of molecular gas in the discs and in the tails of ram-pressure stripped galaxies.

Author

Moretti, A, Paladino, R, Poggianti, B M, D'Onofrio, M, Bettoni, D, Gullieuszik, M, Jaffé, Y L, Vulcani, B, Fasano, G, and Fritz, J

Subjects

GALACTIC evolution, INTERSTELLAR medium, SPIRAL galaxies, STARBURSTS, GALAXIES, STAR formation

Abstract

Jellyfish galaxies in clusters are key tools to understand environmental processes at work in dense environments. The advent of integral field spectroscopy has recently allowed to study a significant sample of stripped galaxies in the cluster environment at $$z$$  ∼ 0.05, through the GAs Stripping Phenomena in galaxies with MUSE (GASP) survey. However, optical spectroscopy can only trace the ionized gas component through the $$\rm H\, \alpha$$ emission that can be spatially resolved on kpc scale at this redshift. The complex interplay between the various gas phases (ionized, neutral, and molecular) is, however, yet to be understood. We report here the detection of large amounts of molecular gas in the discs of four jellyfish galaxies from the GASP sample with stellar masses $${\sim } 3.5\times 10^{10}\text{--}3\times 10^{11} \, \mathrm{M}_{\odot }$$, showing strong stripping. Moreover, a significant detection is found in two of the stripped tails, and in regions neighbouring the galaxy discs in all four galaxies, while the detection of the furthest regions in two of our galaxies is only tentative. The mass of molecular gas that we measure in the tails amounts to several $$10^9 \, \mathrm{M}_{\odot }$$, and the total mass of molecular gas ranges between 15 and 100 per cent of the galaxy stellar mass. We find a clear correlation between the ionized gas emission $$\rm H\, \alpha$$ and the amount of molecular gas. The CO velocities measured from APEX data are not always coincident with the underlying $$\rm H\, \alpha$$ emitting knots, and the derived star formation efficiencies appear to be very low. [ABSTRACT FROM AUTHOR]

Published

2018

42. UVIT view of ram-pressure stripping in action: star formation in the stripped gas of the GASP jellyfish galaxy JO201 in Abell 85.

Author

George, K, Poggianti, B M, Gullieuszik, M, Fasano, G, Bellhouse, C, Postma, J, Moretti, A, Jaffé, Y, Vulcani, B, and Bettoni, D

Subjects

GALAXY clusters, GALAXIES, STAR formation, STELLAR evolution, GALACTIC evolution

Abstract

Jellyfish are cluster galaxies that experience strong ram-pressure effects that strip their gas. Their Hα images reveal ionized gas tails up to 100 kpc, which could be hosting ongoing star formation. Here, we report the ultraviolet (UV) imaging observation of the jellyfish galaxy JO201 obtained at a spatial resolution ∼1.3 kpc. The intense burst of star formation happening in the tentacles is the focus of this study. JO201 is the 'UV-brightest cluster galaxy' in Abell 85 (z ∼ 0.056) with knots and streams of star formation in the UV. We identify star-forming knots both in the stripped gas and in the galaxy disc and compare the UV features with the ones traced by Hα emission. Overall, the two emissions remarkably correlate, both in the main body and along the tentacles. Similarly, also the star formation rates of individual knots derived from the extinction-corrected far-ultraviolet (FUV) emission agree with those derived from the Hα emission and range from ∼0.01 to 2.07 M⊙ yr−1. The integrated star formation rate from FUV flux is ∼15 M⊙ yr−1. The unprecedented deep UV imaging study of the jellyfish galaxy JO201 shows clear signs of extraplanar star formation activity due to a recent/ongoing gas stripping event. [ABSTRACT FROM AUTHOR]

Published

2018

43. GASP. V. Ram-pressure stripping of a ring Hoag's-like galaxy in a massive cluster.

Author

Moretti, A., Poggianti, B. M., Gullieuszik, M., Mapelli, M., Jaffé, Y. L., Fritz, J., Biviano, A., Fasano, G., Bettoni, D., Vulcani, B., and D'Onofrio, M.

Subjects

GALAXY clusters, INTEGRAL field spectroscopy, RAM pressure, SUPERGIANT stars, STELLAR populations, STAR formation

Abstract

Through an ongoing MUSE program dedicated to study gas removal processes in galaxies (GAs Stripping Phenomena in galaxies with MUSE, GASP), we have obtained deep and wide integral field spectroscopy of the galaxy JO171. This galaxy resembles the Hoag's galaxy, one of the most spectacular examples of ring galaxies, characterized by a completely detached ring of young stars surrounding a central old spheroid. At odds with the isolated Hoag's galaxy, JO171 is part of a dense environment, the cluster Abell 3667, which is causing gas stripping along tentacles. Moreover, its ring counter-rotates with respect to the central spheroid. The joint analysis of the stellar populations and the gas/stellar kinematics shows that the origin of the ring was not due to an internal mechanism, but was related to a gas accretion event that happened in the distant past, prior to accretion on to Abell 3667, most probably within a filament. More recently, since infall in the cluster, the gas in the ring has been stripped by ram pressure, causing the quenching of star formation in the stripped half of the ring. This is the first observed case of ram-pressure stripping in action in a ring galaxy, and MUSE observations are able to reveal both of the events (accretion and stripping) that caused dramatic transformations in this galaxy. [ABSTRACT FROM AUTHOR]

Published

2018

44. Galaxy luminosity functions in WINGS clusters.

Author

Moretti, A., Bettoni, D., Poggianti, B. M., Fasano, G., Varela, J., D'Onofrio, M., Vulcani, B., Cava, A., Fritz, J., Couch, W. J., Moles, M., and Kjærgaard, P.

Subjects

STELLAR luminosity function, GALAXY clusters, ASTRONOMICAL photometry, COMPUTER simulation, GALACTIC evolution

Abstract

Aims. Using V band photometry of the WINGS survey, we derive galaxy luminosity functions (LF) in nearby clusters. This sample is complete down to MV = -15.15, and it is homogeneous, thus facilitating the study of an unbiased sample of clusters with different characteristics. Methods. We constructed the photometric LF for 72 out of the original 76 WINGS clusters, excluding only those without a velocity dispersion estimate. For each cluster we obtained the LF for galaxies in a region of radius = 0.5 x r200, and fitted them with single and double Schechter's functions. We also derive the composite LF for the entire sample, and those pertaining to different morphological classes. Finally, we derive the spectroscopic cumulative LF for 2009 galaxies that are cluster members. Results. The double Schechter fit parameters are correlated neither with the cluster velocity dispersion nor with the X-ray luminosity. Our median values of the Schechter's fit slope are, on average, in agreement with measurements of nearby clusters, but are less steep that those derived from large surveys, such as the SDSS. Early-type galaxies out number late-types at all magnitudes, but both early and late types contribute equally to the faint end of the LF. Finally, the spectroscopic LF is in excellent agreement with the one derived for A2199, A85 and Virgo, and with the photometric LF at the bright magnitudes (where both are available). Conclusions. There is a large spread in the LF of different clusters, however, this spread is not caused by correlation of the LF shape with cluster characteristics such as X-ray luminosity or velocity dispersions. The faint end is flatter than previously derived (αf = -1.7), which is at odds with that predicted from numerical simulations. [ABSTRACT FROM AUTHOR]

Published

2015

45. OmegaWINGS: OmegaCAM-VST observations of WINGS galaxy clusters.

Author

Gullieuszik, M., Poggianti, B., Fasano, G., Zaggia, S., Paccagnella, A., Moretti, A., Bettoni, D., D'Onofrio, M., Couch, W. J., Vulcani, B., Fritz, J., Omizzolo, A., Baruffolo, A., Schipani, P., Capaccioli, M., and Varela, J.

Subjects

GALAXY clusters, ASTRONOMICAL photometry, DATA quality, REDSHIFT, WIDE field telescopes

Abstract

Context. Wide-field observations targeting galaxy clusters at low redshift are complementary to field surveys and provide the local benchmark for detailed studies of the most massive haloes in the local Universe. The Wide-field Nearby Galaxy-cluster Survey (WINGS) is a wide-field multi-wavelength survey of X-ray selected clusters at z = 0.04-0.07. The original 34' x 34' WINGS field of view has now been extended to cover a 1 deg² field with both photometry and spectroscopy. Aims. We present the Johnson B- and V-band OmegaCAM at the VST observations of 46 WINGS clusters together with the data reduction, data quality, and Sextractor photometric catalogues. Methods. The data reduction was carried out with a modified version of the ESO-MVM (also known as ALAMBIC) reduction package, adding a cross-talk correction, the gain harmonisation, and a control procedure for problematic CCDs. The stray-light component was corrected for by employing our own observations of populated stellar fields. Results. With a median seeing of 1" in both bands, our 25-min exposures in each band typically reach the 50% completeness level at V = 23.1 mag. The quality of the astrometric and photometric accuracy has been verified by comparison with the 2MASS and SDSS astrometry, and SDSS and previous WINGS imaging. Star-to-galaxy separation and sky-subtraction procedure were tested comparing them with previous WINGS data. Conclusions. The Sextractor photometric catalogues are publicly available at the CDS and will be included in the next release of the WINGS database on the Virtual Observatory together with the OmegaCAM reduced images. These data form the basis for a large ongoing spectroscopic campaign with AAOmega at the AAT and are being employed for a variety of studies. [ABSTRACT FROM AUTHOR]

Published

2015

46. Morphological fractions of galaxies in WINGS clusters: revisiting the morphology-density paradigm.

Author

Fasano, G., Poggianti, B. M., Bettoni, D., D'Onofrio, M., Dressler, A., Vulcani, B., Moretti, A., Gullieuszik, M., Fritz, J., Omizzolo, A., Cava, A., Couch, W. J., Ramella, M., and Biviano, A.

Subjects

GALAXY clusters, ASTRONOMICAL observations, LUMINOSITY, GALACTIC evolution, STAR observations

Abstract

We present the morphology-density and morphology-radius relations (T-∑ and T-R, respectively) obtained from the WIde-field Nearby Galaxy-cluster Survey (WINGS) data base of galaxies in nearby clusters. Aiming to achieve the best statistics, we exploit the whole sample of galaxies brighter than MV=-19.5 (5504 objects), stacking up the 76 clusters of the WINGS survey altogether. Using this global cluster sample, we find that the T-∑ relation holds only in the inner cluster regions (R < 1/3 R200), while the T-R relation keeps almost unchanged over the whole range of local density. A couple of tests and two sets of numerical simulations support the robustness of these results against the effects of the limited cluster area coverage of the WINGS imaging. The above mentioned results hold for all cluster masses (X-ray luminosity and velocity dispersion) and all galaxy stellar masses (M*). The strength of the T-∑ relation (where present) increases with increasing M*, while this effect is not found for the T-R relation. Noticeably, the absence/presence of subclustering determines the presence/absence of the T-∑ relation outside the inner cluster regions, leading us to the general conclusion that the link between morphology and local density is preserved just in dynamically evolved regions. We hypothesize that some mechanism of morphological broadening/redistribution operates in the intermediate/outer regions of substructured ('non-relaxed') clusters, producing a strong weakening of the T-∑ relation. [ABSTRACT FROM AUTHOR]

Published

2015

47. WINGS Data Release: a database of galaxies in nearby clusters.

Author

Moretti, A., Poggianti, B. M., Fasano, G., Bettoni, D., D'Onofrio, M., Fritz, J., Cava, A., Varela, J., Vulcani, B., Gullieuszik, M., Couch, W. J., Omizzolo, A., Valentinuzzi, T., Dressler, A., Moles, M., Kjærgaard, P., Smareglia, R., and Molinaro, M.

Subjects

GALAXY clusters, ASTRONOMICAL photometry, SURFACE brightness (Astronomy), GALACTIC redshift, NEAR infrared radiation, GALACTIC evolution

Abstract

Context. To effectively investigate galaxy formation and evolution, it is of paramount importance to exploit homogeneous data for large samples of galaxies in different environments. Aims. The WIde-field Nearby Galaxy-cluster Survey (WINGS) project aim is to evaluate physical properties of galaxies in a complete sample of low redshift clusters to be used as reference sample for evolutionary studies. The WINGS survey is still ongoing and the original dataset will be enlarged with new observations. This paper presents the entire collection of WINGS measurements obtained so far. Methods. We decided to make use of the Virtual Observatory (VO) tools to share the WINGS database (that will be updated regularly) with the community. In the database each object has one unique identification (WINGSID). Each subset of estimated properties is accessible using a cone search (including wide-field images). Results. We provide the scientific community with the entire set of wide-field images. Furthermore, the published database contains photometry of 759 024 objects and surface brightness analysis for 42 275 and 41 463 galaxies in the V and B band, respectively. The completeness depends on the image quality, and on the cluster redshift, reaching on average 90% at V ⩽ 21.7. Near-infrared photometric catalogs for 26 (in K) and 19 (in J) clusters are part of the database and the number of sources is 962 344 in K and 628 813 in J. Here again the completeness depends on the data quality, but it is on average higher than 90% for J ⩽ 20.5 and K ⩽ 19.4. The IR subsample with a Sersic fit comprises 71 687 objects. A morphological classification is available for 39 923 galaxies. We publish spectroscopic data, including 6132 redshifts, 5299 star formation histories, and 4381 equivalent widths. Finally, a calculation of local density is presented and implemented in the VO catalogs for 66 164 galaxies. The latter is presented here for the first time. [ABSTRACT FROM AUTHOR]

Published

2014

48. The galaxy stellar mass function and its evolution with time show no dependence on global environment.

Author

Vulcani, B., Poggianti, B. M., Oemler Jr., A., Dressler, A., Aragón-Salamanca, A., Lucia, G. De, Moretti, A., Gladders, M., Abramson, L., and Halliday, C.

Subjects

*STELLAR mass, *GALAXIES, *ASTRONOMY, *MILKY Way, *REDSHIFT

Abstract

We present an analysis of the galaxy stellar mass function in different environments at intermediate redshift (0.3 ⩽ z ⩽ 0.8) for two mass-limited galaxy samples. We use the IMACS Cluster Building Survey (ICBS; M∙ ⩾ 1010.5 M°) to study cluster, group and field galaxies at z = 0.3-0.45, and the ESO Distant Cluster Survey (EDisCS; M∙ ⩾ 1010.2 M°) to investigate cluster and group galaxies at z = 0.4-0.8. Our analysis thus includes galaxies with masses reaching just below that of the Milky Way. Excluding the brightest cluster galaxies, we show that the shape of the mass distribution does not seem to depend on global environment, Our two main results are: (1) Galaxies in the virialised regions of clusters, in groups, and in the field follow similar mass distributions. (2) Comparing the ICBS and EDisCS mass functions to mass functions in the local universe, we detect evolution from z ∼ 0.4-0.6 to z ∼ 0.07 in the sense that the population of low-mass galaxies has grown with time with respect to the population of massive galaxies. This evolution is independent of environment, i.e., the same for clusters and the field. Furthermore, considering only cluster galaxies, we find that no differences can be detected in their mass functions either within the virialised regions, or when we compare galaxies inside and outside the virial radius. Finally, we find that red and blue galaxies have different mass functions. However, the shapes of the mass functions of blue and red galaxies do not seem to depend on their environment (clusters groups and the field). [ABSTRACT FROM AUTHOR]

Published

2013

49. Cl 1103.7-1245 at z = 0.96: the highest redshift galaxy cluster in the EDisCS survey.

Author

Vulcani, B., Aragón-Salamanca, A., Poggianti, B. M., Milvang-Jensen, B., von der Linden, A., Fritz, J., Jablonka, P., Johnson, O., and Zaritsky, D.

Subjects

*REDSHIFT, *GALAXY formation, *ELLIPTICAL galaxies, *STAR formation, *SPEED

Abstract

We present new spectroscopic observations in a field containing the highest redshift cluster of the ESO Distant Cluster Survey (EDisCS). We measure galaxy redshifts and determine the velocity dispersions of the galaxy structures located in this field. Together with the main cluster Cl 1103.7-1245 (z = 0.9580; σclus = 522 ± 111 km s-1) we find a secondary structure at z = 0.9830, Cl 1103.7-1245c. We then characterize the galaxy properties in both systems, and find that they contain very different galaxy populations. The cluster Cl 1103.7-1245 hosts a mixture of passive elliptical galaxies and star-forming spirals and irregulars. In the secondary structure Cl 1103.7-1245c all galaxies are lower-mass star-forming irregulars and peculiars. In addition, we compare the galaxy populations in the Cl 1103.7-1245 z = 0.9580 cluster with those in lower redshift EDisCS clusters with similar velocity dispersions. We find that the properties of the galaxies in Cl 1103.7-1245 follow the evolutionary trends found at lower redshifts: the number of cluster members increases with time in line with the expected growth in cluster mass, and the fraction of passive early-type galaxies increases with time while star-forming late types become less dominant. Finally, we find that the mean stellar masses are similar in all clusters, suggesting that massive cluster galaxies were already present at z ∼ 1. [ABSTRACT FROM AUTHOR]

Published

2012

50. The nature of an ultra-faint galaxy in the cosmic dark ages seen with JWST.

Author

Roberts-Borsani G, Treu T, Chen W, Morishita T, Vanzella E, Zitrin A, Bergamini P, Castellano M, Fontana A, Glazebrook K, Grillo C, Kelly PL, Merlin E, Nanayakkara T, Paris D, Rosati P, Yang L, Acebron A, Bonchi A, Boyett K, Bradač M, Brammer G, Broadhurst T, Calabró A, Diego JM, Dressler A, Furtak LJ, Filippenko AV, Henry A, Koekemoer AM, Leethochawalit N, Malkan MA, Mason C, Mercurio A, Metha B, Pentericci L, Pierel J, Rieck S, Roy N, Santini P, Strait V, Strausbaugh R, Trenti M, Vulcani B, Wang L, Wang X, and Windhorst RA

Abstract

In the first billion years after the Big Bang, sources of ultraviolet (UV) photons are believed to have ionized intergalactic hydrogen, rendering the Universe transparent to UV radiation. Galaxies brighter than the characteristic luminosity L* (refs.  1,2 ) do not provide enough ionizing photons to drive this cosmic reionization. Fainter galaxies are thought to dominate the photon budget; however, they are surrounded by neutral gas that prevents the escape of the Lyman-α photons, which has been the dominant way to identify them so far. JD1 was previously identified as a triply-imaged galaxy with a magnification factor of 13 provided by the foreground cluster Abell 2744 (ref. 3 ), and a photometric redshift of z ≈ 10. Here we report the spectroscopic confirmation of this very low luminosity (≈0.05 L*) galaxy at z = 9.79, observed 480 Myr after the Big Bang, by means of the identification of the Lyman break and redward continuum, as well as multiple ≳4σ emission lines, with the Near-InfraRed Spectrograph (NIRSpec) and Near-InfraRed Camera (NIRCam) instruments. The combination of the James Webb Space Telescope (JWST) and gravitational lensing shows that this ultra-faint galaxy (M UV  = -17.35)-with a luminosity typical of the sources responsible for cosmic reionization-has a compact (≈150 pc) and complex morphology, low stellar mass (10 7.19  M ⊙ ) and subsolar (≈0.6 Z ⊙ ) gas-phase metallicity., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023