Your search keyword '"Dondoglio, E."' showing total 122 results

1. Exploring Multiple Stellar Populations in Globular Clusters with Euclid: A Theoretical Overview and Insights from NGC 6397

Author

Milone, A. P., Cordoni, G., Marino, A. F., Altomonte, V., Dondoglio, E., Legnardi, M. V., Bortolan, E., Lionetto, S., Matchuk, A. V., Muratore, F., and Ziliotto, T.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

We investigate the behavior of multiple stellar populations in globular clusters (GCs) using photometric diagrams constructed with Euclid photometry. By employing synthetic spectra and isochrones that incorporate the chemical differences between first-population (1P) stars, resembling field stars, and second-population (2P) stars, enriched in helium and nitrogen but depleted in carbon and oxygen, we identify, from a theoretical perspective, the color-magnitude diagrams and the chromosome maps most effective at distinguishing these populations within GCs. Euclid photometry proves to be a powerful tool for identifying multiple populations among M-dwarfs, as 1P and 2P stars form distinct sequences in well-chosen photometric diagrams, driven by differences in the strength of oxygen-based molecular features, such as water vapor. To validate our theoretical findings, we analyzed Euclid photometry and astrometry of the GC NGC 6397, complemented by photometric and astrometric data from the Hubble Space Telescope and James Webb Space Telescope, enabling a comprehensive study of its stellar populations across a wide field of view. We find that the 1P constitutes about 30% of the M-dwarfs in NGC 6397, with the fraction of 1P stars remaining consistent across different stellar masses and throughout the entire field of view. 2P stars exhibit an [O/Fe] depletion of about 0.3 dex relative to 1P stars, and both populations display isotropic proper motions. This study represents the first comprehensive analysis of multiple populations among M-dwarfs across a wide field of view, demonstrating that Euclid photometry is a powerful instrument for investigating multiple populations in GCs., Comment: 21 pages, 19 figures, submitted to Astronomy & Astrophysics on January 14, 2025

Published

2025

2. Hubble Space Telescope survey of Magellanic Cloud star clusters. Binaries among the split main sequences of NGC 1818, NGC 1850, and NGC 2164

Author

Muratore, F., Milone, A. P., D'Antona, F., Nastasio, E. J., Cordoni, G., Legnardi, M. V., He, C., Ziliotto, T., Dondoglio, E., Bernizzoni, M., Tailo, M., Bortolan, E., Dell'Agli, F., Deng, L., Lagioia, E. P., Li, C., Marino, A. F., and Ventura, P.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Nearly all star clusters younger than ~600 Myr exhibit extended main sequence turn offs and split main sequences (MSs) in their color-magnitude diagrams. Works based on both photometry and spectroscopy have firmly demonstrated that the red MS is composed of fast-rotating stars, whereas blue MS stars are slow rotators. Nevertheless, the mechanism responsible for the formation of stellar populations with varying rotation rates remains a topic of debate. Potential mechanisms proposed for the split MS include binary interactions, early evolution of pre-main sequence stars, and the merging of binary systems, but a general consensus has yet to be reached. These formation scenarios predict different fractions of binaries among blue- and red-MS stars. Therefore, studying the binary populations can provide valuable constraints that may help clarify the origins of the split MSs. We use high-precision photometry from the Hubble Space Telescope (HST) to study the binaries of three young Magellanic star clusters exhibiting split MS, namely NGC 1818, NGC 1850, and NGC 2164. By analyzing the photometry in the F225W, F275W, F336W, and F814W filters for observed binaries and comparing it to a large sample of simulated binaries, we determine the fractions of binaries within the red and the blue MS. We find that the fractions of binaries among the blue MS are higher than those of red-MS stars by a factor of ~1.5, 4.6, and ~1.9 for NGC 1818, NGC 1850, and NGC 2164, respectively. We discuss these results in the context of the formation scenarios of the split MS., Comment: 8 pages, 7 figures, accepted for publication in Astronomy & Astrophysics

Published

2024

3. Exploring Simple-Population and Multiple-Population Globular Clusters in the Outer Galactic Halo using the Hubble Space Telescope

Author

Lagioia, E. P., Milone, A. P., Legnardi, M. V., Cordoni, G., Dondoglio, E., Renzini, A., Tailo, M., Ziliotto, T., Carlos, M., Jang, S., Marino, A. F., Mohandasan, A., Qi, J., Rangwal, G., Bortolan, E., and Muratore, F.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

The pseudo two-color diagram, known as chromosome map (ChM), is a valuable tool for identifying globular clusters (GCs) that consist of single or multiple stellar populations (MPs). Recent surveys of Galactic GCs using the ChM have provided stringent observational constraints on the formation of GCs and their stellar populations. However, these surveys have primarily focused on GCs at moderate distances from the Galactic center and composed of MPs. In this paper, we present the first detailed study of the stellar composition of four GCs in the outer halo of the Milky Way: Arp 2, Ruprecht 106, Terzan 7, and Terzan 8. Our analysis is based on high-precision photometry obtained from images collected with the Hubble Space Telescope in the F275W, F336W, F438W, F606W, and F814W bands. We find that Ruprecht 106 and Terzan 7 are composed solely of a single stellar population, whereas Arp 2 and Terzan 8 host both first- and second-population stars. In these clusters, the second population comprises about half and one-third of the total number of GC stars, respectively. The results from this paper and the literature suggest that the threshold in the initial GC mass, if present, should be smaller than approximately 10^5 M$_{\odot}$. The first-population stars of Arp 2 and Terzan 8, along with the stars of the simple-population GCs Ruprecht 106 and Terzan 7, exhibit intrinsic F275W - F814W color spreads, likely indicative of [Fe/H] variations of approximately 0.05 -- 0.30 dex. This suggests that star-to-star metallicity variations are a common feature of star clusters, regardless of the presence of MPs., Comment: Accepted for publication in ApJ, 17 pages, 7 figures

Published

2024

4. A JWST project on 47 Tucanae. NIRSpec spectroscopy of multiple populations among M dwarfs

Author

Marino, A. F., Milone, A. P., Renzini, A., Dondoglio, E., Bortolan, E., Carlos, M. G., Cordoni, G., Dotter, A., Jang, S., Lagioia, E. P., Legnardi, M. V., Muratore, F., Mohandasan, A., Tailo, M., and Ziliotto, T.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present the first spectroscopic estimates of the chemical abundance of M dwarf stars in a globular cluster (GC), namely 47 Tucanae. By exploiting NIRSpec on board the James Webb Space Telescope (JWST) we gathered low-resolution spectra for 28 stars with masses in the range ~0.4-0.5 solar masses. The spectra are strongly affected by the H2O water vapour bands which can be used as indicators of the oxygen abundance. The spectral analysis reveals that the target stars feature a different O abundance, with a difference of ~0.40 dex between first and the most-polluted second population. The observed range is similar to that observed among red giant stars. This result reinforces previous findings based on the analysis of photometric diagrams, including the ``chromosome maps'', providing a first, and more direct, evidence of light element variations in the M dwarfs' mass regime. The observation that the multiple populations, with their variations in light elements, exhibit the same patterns from the lower main sequence all the way to the red giant branch further strengthens the notion that multiple stellar populations in globular clusters formed in a series of bursts of star formation., Comment: 9 pages, 4 figures, 2 tables, accepted for publication in ApJ Letters

Published

2024

5. Spectro-Photometry and Radial Distribution of Multiple Stellar Populations in Globular Clusters from Gaia XP Spectra

Author

Mehta, V. J., Milone, A. P., Casagrande, L., Marino, A. F., Legnardi, M. V., Cordoni, G., Dondoglio, E., Jang, S., Ziliotto, T., Barbieri, M., Bernizzoni, M., Bortolan, E., Sanchez, A. Bouras Moreno, Lagioia, E. P., Lionetto, S., Mohandasan, A., and Muratore, F.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Understanding the formation of multiple populations in globular clusters (GCs) represents a challenge for stellar population studies. Nevertheless, the outermost cluster regions, likely to hold clues about the initial configuration of GC stars, remain underexplored. We use synthetic spectra reflecting the chemical compositions of first- and second-population (1P, 2P) stars in 47Tucanae to identify spectral regions sensitive to these populations. This led us to define new photometric bands that effectively distinguish 1P and 2P giant stars using Gaia XP spectra. Testing these filters, we constructed the pseudo two-color diagrams dubbed chromosome maps (ChMs) and, for the first time, identified 1P and 2P stars in the cluster's outermost regions and beyond its tidal radius. We constructed similar diagrams for NGC3201, NGC6121, NGC6752, and NGC6397, thus exploring GCs with different metallicities. The ChMs effectively distinguished multiple populations in the outer regions of all clusters, except for the metal-poor NGC6397. Our findings, together with literature results from more-internal regions, show that the 2P stars of 47Tucanae are more-centrally concentrated than the 1P. A similar pattern is seen for 2P stars with extreme chemical composition of NGC3201. The multiple populations of NGC6121, and NGC6752 share the same radial distributions. These radial behaviors are consistent with the GC formation scenarios where 2P stars originate in the central regions. Noticeably, results on NGC3201 are in tension with the conclusion from recent work that its 1P is more centrally concentrated than the 2P and might form with more central concentration., Comment: 12 pages, 12 figures, accepted for publication in MNRAS

Published

2024

6. On the original composition of the gas forming first-generation stars in clusters: insights from HST and JWST

Author

Legnardi, M. V., Milone, A. P., Cordoni, G., Marino, A. F., Dondoglio, E., Jang, S., Lagioia, E. P., Muratore, F., Ziliotto, T., Bortolan, E., and Mohandasan, A.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

Globular cluster (GC) stars composed of pristine material (first-generation, 1G, stars) are not chemically homogeneous, as they exhibit extended sequences in the "Chromosome Map" (ChM). Recent studies characterized 1G stars within the center of 55 Galactic GCs, revealing metallicity variations. Despite this progress, several unanswered questions persist, particularly concerning the link between the 1G metallicity spread and factors such as the radial distance from the cluster center or the host GC parameters. Additionally, it remains unclear whether the extended 1G sequence phenomenon is exclusive to old Galactic GCs with multiple populations. This work addresses these open issues, examining 1G stars in different environments. First, we combine Hubble Space Telescope (HST) and James Webb Space Telescope photometry of the GC 47 Tucanae to study 1G stars at increasing distances from the cluster center. We find that metal-rich 1G stars are more centrally concentrated than metal-poor ones, suggesting a metallicity radial gradient. Additionally, the two groups of 1G stars share similar kinematics. Since our analysis focuses on giant stars in the cluster center and M dwarfs in external fields, we discuss the possibility that the metallicity distribution depends on stellar mass. Subsequently, we analyze HST multi-band photometry of two simple-population clusters, NGC 6791 and NGC 1783, revealing elongated sequences in the ChM associated with metallicity variations. Finally, we investigate the 1G color distribution in 51 GCs, finding no connections with the host cluster parameters. These results shed light on the complex nature of 1G stars, providing insights into the GC formation environment., Comment: 15 pages, 14 figures, accepted for pubblication in Astronomy & Astrophysics

Published

2024

7. A JWST project on 47 Tucanae. Overview, photometry and early spectroscopic results of M dwarfs, and observation of brown dwarfs

Author

Marino, A. F., Milone, A. P., Legnardi, M. V., Renzini, A., Dondoglio, E., Cavecchi, Y., Cordoni, G., Dotter, A., Lagioia, E. P., Ziliotto, T., Bernizzoni, M., Bortolan, E., Carlos, M. G., Jang, S., Mohandasan, A., Muratore, F., and Tailo, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The James Webb Space Telescope (JWST) observations have been demonstrated to be efficient in detecting globular clusters' (GCs) multiple stellar populations in the low mass regime of M dwarfs. We present an overview, and first results, of different projects that can be explored by using the JWST observations gathered under the GO2560 for 47 Tucanae, a first program entirely devoted to the investigation of multiple populations in very low mass stars, which includes spectroscopic data for the faintest GC stars for which spectra are available. Our color-magnitude diagram (CMD) shows some substructures for ultracool stars, including gaps and breaks in slope. In particular, we observe both a gap and a minimum in the F322W2 luminosity function less than one magnitude apart, and discuss which one could be associated with the H-burning limit. We detect stars fainter than this minimum, very likely the brown dwarfs. We corroborate the ubiquity of the multiple populations across different masses, from ~0.1 solar masses up to red giants (~0.8 solar masses). The oxygen range inferred from the M dwarfs, both from the CMD and from the spectra of two M dwarfs associated with different populations, is similar to that observed in giants. We have not detected any difference between the fractions of stars in distinct populations across stellar masses >~0.1 solar masses. This work demonstrates the JWST's capability in uncovering multiple populations within M dwarfs and illustrates the possibility to analyse very low-mass stars in GCs approaching the H-burning limit and the brown-dwarf sequence., Comment: 19 pages, 10 figures, 2 tables, accepted for publication in ApJ

Published

2024

8. The metallicity variations along the chromosome maps: The Globular Cluster 47 Tucanae

Author

Marino, A. F., Milone, A. P., Dondoglio, E., Renzini, A., Cordoni, G., Jerjen, H., Karakas, A. I., Lagioia, E. P., Legnardi, M. V., McKenzie, M., Mohandasan, A., Tailo, M., Yong, D., and Ziliotto, T.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

The "chromosome maps" (ChMs) of globular clusters (GCs) have revealed that these ancient structures are not homogeneous in metallicity in various ways, and in different natures. The Type II GCs generally display larger variations, sometimes coupled with slow neutron capture (s) element enrichment on the ChMs redder sequences, which has been interpreted as due to multiple generations of stars. On the other hand, most GCs have inhomogeneous first populations (1P) in the form of large ranges in the Delta(F275W,F814W) values, pointing towards a not fully mixed pristine molecular cloud. We analyse the chemical composition the GC 47 Tucanae, which shows both inhomogeneous 1P stars and, although not formally a Type II GC, hosts a small number of stars distributed on a red side of the main stream of ChM stars. Our results suggest that 1P stars are not homogeneous in the overall metallicity, with variations of the order of ~0.10 dex in all the chemical species. The anomalous stars distributed on a redder sequence of the ChM, are further enriched in metals, but without any evidence for a significant enrichment in the s elements. Our three second population stars located on the normal component of the map, have metallicities similar to those of the metal-richer 1P group, suggesting that this population formed from these stars. Although three stars is a too-small sample to draw strong conclusions, the low spread in metals of these objects might point towards a formation in a fully mixed medium, possibly after a cooling flow phase., Comment: 16 pages, 6 figures, 8 tables. Accepted for publication in ApJ

Published

2023

9. A deep dive into the Type II Globular Cluster NGC 1851

Author

Dondoglio, E., Milone, A. P., Marino, A. F., D'Antona, F., Cordoni, G., Legnardi, M. V., Lagioia, E. P., Jang, S., Ziliotto, T., Carlos, M., Dell'Agli, F., Karakas, A., Mohandasan, A., Osborn, Z., Tailo, M., and Ventura, P.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

About one-fifth of the Galactic globular clusters (GCs), dubbed Type II GCs, host distinct stellar populations with different heavy elements abundances. NGC 1851 is one of the most studied Type II GCs, surrounded by several controversies regarding the spatial distribution of its populations and the presence of star-to-star [Fe/H], C+N+O, and age differences. This paper provides a detailed characterization of its stellar populations through Hubble Space Telescope (HST), ground-based, and Gaia photometry. We identified two distinct populations with different abundances of s-process elements along the red-giant branch (RGB) and the sub-giant branch (SGB) and detected two sub-populations among both s-poor (canonical) and s-rich (anomalous) stars. To constrain the chemical composition of these stellar populations, we compared observed and simulated colors of stars with different abundances of He, C, N, and O. It results that the anomalous population has a higher CNO overall abundance compared to the canonical population and that both host stars with different light-element abundances. No significant differences in radial segregation between canonical and anomalous stars are detected, while we find that among their sub-populations, the two most chemical extremes are more centrally concentrated. Anomalous and canonical stars show different 2D spatial distributions outside ~3 arcmin, with the latter developing an elliptical shape and a stellar overdensity in the northeast direction. We confirm the presence of a stellar halo up to ~80 arcmin with Gaia photometry, tagging 14 and five of its stars as canonical and anomalous, respectively, finding a lack of the latter in the south/southeast field., Comment: Accepted for publication on MNRAS

Published

2023

10. Hubble Space Telescope survey of Magellanic Cloud star clusters. UV-dim stars in young clusters

Author

Milone, A. P., Cordoni, G., Marino, A. F., Muratore, F., D'Antona, F., Di Criscienzo, M., Dondoglio, E., Lagioia, E. P., Legnardi, M. V., Mohandasan, A., Ziliotto, T., Dell'Agli, F., Tailo, M., and Ventura, P.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Young and intermediate-age star clusters of both Magellanic Clouds exhibit complex color-magnitude diagrams. In addition to the extended main-sequence turn-offs (eMSTOs), commonly observed in star clusters younger than ~2 Gyr, the clusters younger than ~800 Myr exhibit split main sequences (MSs). These comprise a blue MS, composed of stars with low-rotation rates, and a red MS, which hosts fast-rotating stars. While it is widely accepted that stellar populations with different rotation rates are responsible for the eMSTOs and split MSs, their formation and evolution are still debated. A recent investigation of the ~1.7 Gyr old cluster NGC1783 detected a group of eMSTO stars extremely dim in UV bands. Here, we use multi-band Hubble Space Telescope photometry to investigate five star clusters younger than ~200 Myr, including NGC1805, NGC1818, NGC1850, and NGC2164 in the Large Magellanic Cloud, and the Small-Magellanic Cloud cluster NGC330. We discover a group of bright MS stars in each cluster that are significantly dim in the F225W and F275W bands, similar to what is observed in NGC1783. Our result suggests that UV-dim stars are common in young clusters. The evidence that most of them populate the blue MS indicates that they are slow rotators. As a byproduct, we show that the star clusters NGC1850 and BHRT5b exhibit different proper motions, thus corroborating the evidence that they are not gravitationally bound., Comment: 11 pages, 8 figures, accepted for publication in MNRAS

Published

2023

11. Differential reddening in the direction of 56 Galactic globular clusters

Author

Legnardi, M. V., Milone, A. P., Cordoni, G., Lagioia, E. P., Dondoglio, E., Marino, A. F., Jang, S., Mohandasan, A., and Ziliotto, T.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

The presence of differential reddening in the direction of Galactic globular clusters (GCs) has proven to be a serious limitation in the traditional colour-magnitude diagram (CMD) analysis. Here, we estimate local reddening variations in the direction of 56 Galactic GCs. To do that, we use the public catalogs derived as part of the Hubble Space Telescope UV Legacy Survey of Galactic Globular Clusters, which include photometry in the F275W, F336W, F438W, F606W, and F814W filters. We correct photometry for differential reddening finding that for 21 out of 56 GCs the adopted correction procedure significantly improves the CMDs. Moreover, we measure the reddening law in the direction of these clusters finding that $R_{V}$ exhibits a high level of variability within the Galaxy, ranging from $\sim2.0$ to $\sim4.0$. The updated values of $R_{V}$ have been used to improve the determination of local reddening variations and derive high-resolution reddening maps in the direction of the 21 highly-reddened targets within our sample. To compare the results of the different clusters, we compute the 68$^{\rm th}$ percentile of the differential-reddening distribution, $\sigma_{\Delta A_{\rm F814W}}$. This quantity ranges from 0.003 mag to 0.030 mag and exhibits a significant anti-correlation with the absolute module of the Galactic latitude and a strong correlation with the average reddening in the direction of each cluster. Therefore, highly-reddened GCs located in the proximity of the Galactic plane typically show higher differential-reddening variations across their field of view., Comment: 14 pages, 14 figures, accepted for pubblication in MNRAS. The photometric catalogs corrected for differential reddening are publicly available at this website: http://progetti.dfa.unipd.it/GALFOR/

Published

2023

12. Multiple Stellar Populations in Globular Clusters with JWST: a NIRCam view of 47 Tucanae

Author

Milone, A. P., Marino, A. F., Dotter, A., Ziliotto, T., Dondoglio, E., Cordoni, G., Jang, S., Lagioia, E. P., Legnardi, M. V., Mohandasan, A., Tailo, M., Yong, D., Baimukhametova, S., and Carlos, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We use images collected with the near-infrared camera (NIRCam) on board the James Webb Space Telescope and with the Hubble Space Telescope (HST) to investigate multiple populations at the bottom of the main sequence (MS) of 47 Tucanae. The F115W vs. F115W-F322W2 CMD from NIRCam shows that, below the knee, the MS stars span a wide color range, where the majority of M-dwarfs exhibit blue colors, and a tail of stars are distributed toward the red. A similar pattern is observed from the F160W vs. F110W-F160W CMD from HST, and multiple populations of M-dwarfs are also visible in the optical F606W vs. F606W-F814W CMD. The NIRCam CMD shows a narrow sequence of faint MS stars with masses smaller than 0.1 solar masses. We introduce a chromosome map of M-dwarfs that reveals an extended first population and three main groups of second-population stars. By combining isochrones and synthetic spectra with appropriate chemical composition, we simulate colors and magnitudes of different stellar populations in the NIRCam filters (at metallicities [Fe/H]=-1.5 and [Fe/H]=-0.75) and identify the photometric bands that provide the most efficient diagrams to investigate the multiple populations in globular clusters. Models are compared with the observed CMDs of 47 Tucanae to constrain M-dwarfs' chemical composition. Our analysis suggests that the oxygen range needed to reproduce the colors of first- and second-population M-dwarfs is similar to that inferred from spectroscopy of red giants, constraining the proposal that the chemical variations are due to mass transfer phenomena in proto-clusters., Comment: 21 pages, 17 figures, accepted for publication in MNRAS

Published

2023

13. Hubble Space Telescope survey of Magellanic Cloud star clusters. Photometry and astrometry of 113 clusters and early results

Author

Milone, A. P., Cordoni, G., Marino, A. F., D'Antona, F., Bellini, A., Di Criscienzo, M., Dondoglio, E., Lagioia, E. P., Langer, N., Legnardi, M. V., Libralato, M., Baumgardt, H., Bettinelli, M., Cavecchi, Y., de Grijs, R., Deng, L., Hastings, B., Li, C., Mohandasan, A., Renzini, A., Vesperini, E., Wang, C., Ziliotto, T., Carlos, M., Costa, G., Dell'Agli, F., Di Stefano, S., Jang, S., Martorano, M., Simioni, M., Tailo, M., and Ventura, P.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

In the past years, we have undertaken an extensive investigation of LMC and SMC star clusters based on HST data. We present photometry and astrometry of stars in 101 fields observed with the WFC/ACS, UVIS/WFC3 and NIR/WFC3 cameras. These fields comprise 113 star clusters. We provide differential-reddening maps and illustrate various scientific outcomes that arise from the early inspection of the photometric catalogs. In particular, we provide new insights on the extended main-sequence turn-off (eMSTO) phenomenon: i) We detected eMSTOs in two clusters, KMHK361 and NGC265, which had no previous evidence of multiple populations. This finding corroborates the conclusion that the eMSTO is a widespread phenomenon among clusters younger than ~2 Gyr. ii) The homogeneous color-magnitude diagrams (CMDs) of 19 LMC clusters reveal that the distribution of stars along the eMSTO depends on cluster age. iii) We discovered a new feature along the eMSTO of NGC1783, which consists of a distinct group of stars going on the red side of the eMSTO in CMDs composed of ultraviolet filters. Furthermore, we derived the proper motions of stars in the fields of view of clusters with multi-epoch images. Proper motions allowed us to separate the bulk of bright field stars from cluster members and investigate the internal kinematics of stellar populations in various LMC and SMC fields. As an example, we analyze the field around NGC346 to disentangle the motions of its stellar populations, including NGC364 and BS90, young and pre-MS stars in the star-forming region associated with NGC346, and young and old field stellar populations of the SMC. Based on these results and the fields around five additional clusters, we find that young SMC stars exhibit elongated proper-motion distributions that point toward the LMC, thus bringing new evidence for a kinematic connection between the LMC and SMC., Comment: 37 pages, 27 figures, accepted for publication in Astronomy & Astrophysics

Published

2022

14. The chemical compositions of multiple stellar populations in the globular cluster NGC 2808

Author

Carlos, M., Marino, A. F., Milone, A. P., Dondoglio, E., Jang, S., Legnardi, M. V., Mohandasan, A., Cordoni, G., Lagioia, E. P., Amarsi, A. M., and Jerjen, H.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

Pseudo two-colour diagrams or Chromosome maps (ChM) indicate that NGC 2808 host five different stellar populations. The existing ChMs have been derived by the Hubble Space Telescope photometry, and comprise of stars in a small field of view around the cluster centre. To overcome these limitations, we built a ChM with U,B,I photometry from ground-based facilities that disentangle the multiple stellar populations of NGC 2808 over a wider field of view. We used spectra collected by GIRAFFE@VLT in a sample of 70 red giant branch (RGB) and seven asymptotic giant branch (AGB) stars to infer the abundances of C, N, O, Al, Fe, and Ni, which combined with literature data for other elements (Li, Na, Mg, Si, Ca, Sc, Ti, Cr and Mn), and together with both the classical and the new ground-based ChMs, provide the most complete chemical characterisation of the stellar populations in NGC 2808 available to date. As typical of the multiple population phenomenon in globular clusters, the light elements vary from one stellar population to another; whereas the iron peak elements show negligible variation between the different populations (at a level of $\lesssim0.10$~dex). Our AGB stars are also characterised by the chemical variations associated with the presence of multiple populations, confirming that this phase of stellar evolution is affected by the phenomenon as well. Intriguingly, we detected one extreme O-poor AGB star (consistent with a high He abundance), challenging stellar evolution models which suggest that highly He-enriched stars should avoid the AGB phase and evolve as AGB-manqu\'e star., Comment: Accepted for publication in MNRAS. 19 pages and 13 figures

Published

2022

15. Chromosome maps of Globular Clusters from wide-field ground-based photometry

Author

Jang, S., Milone, A. P., Legnardi, M. V., Marino, A. F., Mastrobuono-Battisti, A., Dondoglio, E., Lagioia, E. P., Casagrande, L., Carlos, M., Mohandasan, A., Cordoni, G., Bortolan, E., and Lee, Y. -W.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

Hubble Space Telescope (HST) photometry is providing an extensive analysis of globular clusters (GCs). In particular, the pseudo two-colour diagram dubbed 'chromosome map (ChM)' allowed to detect and characterize their multiple populations with unprecedented detail. The main limitation of these studies is the small field of view of HST, which makes it challenging to investigate some important aspects of the multiple populations, such as their spatial distributions and the internal kinematics in the outermost cluster regions. To overcome this limitation, we analyse state-of-art wide-field photometry of 43 GCs obtained from ground-based facilities. We derived high-resolution reddening maps and corrected the photometry for differential reddening when needed. We use photometry in the U, B, and I bands to introduce the $\Delta c_{\rm U,B,I}$ vs. $\Delta_{\rm B,I}$ ChM of red-giant branch (RGB) and asymptotic-giant branch (AGB) stars. We demonstrate that this ChM, which is built with wide-band ground-based photometry, is an efficient tool to identify first- and second-generation stars (1G and 2G) over a wide field of view. To illustrate its potential, we derive the radial distribution of multiple populations in NGC 288 and infer their chemical composition. We present the ChMs of RGB stars in 29 GCs and detect a significant degree of variety. The fraction of 1G and 2G stars, the number of subpopulations, and the extension of the ChMs significantly change from one cluster to another. Moreover, the metal-poor and metal-rich stars of Type II GCs define distinct sequences in the ChM. We confirm the presence of extended 1G sequences., Comment: 19 pages, 15 figures

Published

2022

16. Constraining the original composition of the gas forming first-generation stars in globular clusters

Author

Legnardi, M. V., Milone, A. P., Armillotta, L., Marino, A. F., Cordoni, G., Renzini, A., Vesperini, E., D'Antona, F., McKenzie, M., Yong, D., Dondoglio, E., Lagioia, E. P., Carlos, M., Tailo, M., Jang, S., and Mohandasan, A.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

Disentangling distinct stellar populations along the red-giant branches (RGBs) of Globular Clusters (GCs) is possible by using the pseudo two-color diagram dubbed chromosome map (ChM). One of the most intriguing findings is that the so-called first-generation (1G) stars, characterized by the same chemical composition of their natal cloud, exhibit extended sequences in the ChM. Unresolved binaries and internal variations in helium or metallicity have been suggested to explain this phenomenon. Here, we derive high-precision Hubble Space Telescope photometry of the GCs NGC6362 and NGC6838 and build their ChMs. We find that both 1G RGB and main-sequence (MS) stars exhibit wider ChM sequences than those of second-generation (2G). The evidence of this feature even among unevolved 1G MS stars indicates that chemical inhomogeneities are imprinted in the original gas. We introduce a pseudo two-magnitude diagram to distinguish between helium and metallicity, and demonstrate that star-to-star metallicity variations are responsible for the extended 1G sequence. Conversely, binaries provide a minor contribution to the phenomenon. We estimate that the metallicity variations within 1G stars of 55 GCs range from less than [Fe/H]~0.05 to ~0.30 and mildly correlate with cluster mass. We exploit these findings to constrain the formation scenarios of multiple populations showing that they are qualitatively consistent with the occurrence of multiple generations. In contrast, the fact that 2G stars have more homogeneous iron content than the 1G challenges the scenarios based on accretion of material processed in massive 1G stars onto existing protostars., Comment: 18 pages, 13 figures, accepted for publication in MNRAS

Published

2022

17. Survey of multiple populations in globular clusters among very low-mass stars

Author

Dondoglio, E., Milone, A. P., Renzini, A., Vesperini, E., Lagioia, E. P., Marino, A. F., Bellini, A., Carlos, M., Cordoni, G., Jang, S., Legnardi, M. V., Libralato, M., Mohandasan, A., D'Antona, F., Martorano, M., Muratore, F., and Tailo, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Recent work has shown that NIR Hubble Space Telescope (HST) photometry allows us to disentangle multiple populations (MPs) among M dwarfs of globular clusters (GCs) and investigate this phenomenon in very low-mass (VLM) stars. Here, we present the color-magnitude diagrams (CMDs) of nine GCs and the open cluster NGC 6791 in the F110W and F160W bands of HST, showing that the main sequences (MSs) below the knee are either broadened or split thus providing evidence of MPs among VLM stars. In contrast, the MS of NGC 6791 is consistent with a single population. The color distribution of M-dwarfs dramatically changes between different GCs and the color width correlates with the cluster mass. We conclude that the MP ubiquity, variety, and dependence on GC mass are properties common to VLM and more-massive stars. We combined UV, optical, and NIR observations of NGC 2808 and NGC 6121 (M 4) to identify MPs along with a wide range of stellar masses (~ 0.2 - 0.8M ), from the MS turn off to the VLM regime, and measured, for the first time, their mass functions (MFs). We find that the fraction of MPs does not depend on the stellar mass and that their MFs have similar slopes. These findings indicate that the properties of MPs do not depend on stellar mass. In a scenario where the second generations formed in higher-density environments than the first generations, the possibility that the MPs formed with the same initial MF would suggest that it does not depend on the environment., Comment: 22 pages, 15 figures. Accepted for publication in ApJ

Published

2022

18. Integrated photometry of multiple stellar populations in Globular Clusters

Author

Jang, S., Milone, A. P., Lagioia, E. P., Tailo, M., Carlos, M., Dondoglio, E., Martorano, M., Mohandasan, A., Marino, A. F., Cordoni, G., and Lee, Y. -W.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Evidence that the multiple populations (MPs) are common properties of globular clusters (GCs) is accumulated over the past decades from clusters in the Milky Way and in its satellites. This finding has revived GC research, and suggested that their formation at high redshift must have been a much-more complex phenomenon than imagined before. However, most information on MPs is limited to nearby GCs. The main limitation is that most studies on MPs rely on resolved stars, facing a major challenge to investigate the MP phenomenon in distant galaxies. Here we search for integrated colors of old GCs that are sensitive to the multiple-population phenomenon. To do this, we exploit integrated magnitudes of simulated GCs with MPs, and multi-band Hubble Space Telescope photometry of 56 Galactic GCs, where MPs are widely studied, and characterized as part of the UV Legacy Survey of Galactic GCs. We find that both integrated $C_{\rm F275W,F336W,F438W}$ and $m_{\rm F275W}-m_{\rm F814W}$ colors strongly correlate with the iron abundance of the host GC. In second order, the pseudo two-color diagram built with these integrated colors is sensitive to the MP phenomenon. In particular, once removed the dependence from cluster metallicity, the color residuals depend on the maximum internal helium variation within GCs and on the fraction of second-generation stars. This diagram, which we define here for Galactic GCs, has the potential of detecting and characterizing MPs from integrated photometry of old GCs, thus providing the possibility to extend their investigation outside the Local Group., Comment: 17 pages, 10 figures, 2 tables

Published

2021

19. Spectroscopy and photometry of the least-massive Type-II globular clusters: NGC1261 AND NGC6934

Author

Marino, A. F., Milone, A. P., Renzini, A., Yong, D., Asplund, M., Da Costa, G. S., Jerjen, H., Cordoni, G., Carlos, M., Dondoglio, E., Lagioia, E. P., Jang, S., and Tailo, M.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Recent work has revealed two classes of Globular Clusters (GCs), dubbed Type-I and Type-II. Type-II GCs are characterized by a blue- and a red- red giant branch composed of stars with different metallicities, often coupled with distinct abundances in the slow-neutron capture elements (s-elements). Here we continue the chemical tagging of Type-II GCs by adding the two least-massive clusters of this class, NGC1261 and NGC6934. Based on both spectroscopy and photometry, we find that red stars in NGC1261 are slightly enhanced in [Fe/H] by ~0.1 dex and confirm that red stars of NGC 6934 are enhanced in iron by ~0.2 dex. Neither NGC1261 nor NGC6934 show internal variations in the s-elements, which suggests a GC mass threshold for the occurrence of s-process enrichment. We found a significant correlation between the additional Fe locked in the red stars of Type-II GCs and the present-day mass of the cluster. Nevertheless, most Type II GCs retained a small fraction of Fe produced by SNe II, lower than the 2%; NGC6273, M54 and omega Centauri are remarkable exceptions. In the appendix, we infer for the first time chemical abundances of Lanthanum, assumed as representative of the s-elements, in M54, the GC located in the nucleus of the Sagittarius dwarf galaxy. Red-sequence stars are marginally enhanced in [La/Fe] by 0.10\pm0.06 dex, in contrast with the large [La/Fe] spread of most Type II GCs. We suggest that different processes are responsible for the enrichment in iron and s-elements in Type-II GCs., Comment: 22 pages, 10 figures, submitted

Published

2021

20. Mass loss law for red giant stars in simple population globular clusters

Author

Tailo, M., Milone, A. P., Lagioia, E. P., D'Antona, F., Jang, S., Vesperini, E., Marino, A. F., Ventura, P., Caloi, V., Carlos, M., Cordoni, G., Dondoglio, E., Mohandasan, A., Nastasio, J. E., and Legnardi, M. V.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The amount of mass lost by stars during the red-giant branch (RGB) phase is one of the main parameters to understand and correctly model the late stages of stellar evolution. Nevertheless, a fully-comprehensive knowledge of the RGB mass loss is still missing. Galactic Globular Clusters (GCs) are ideal targets to derive empirical formulations of mass loss, but the presence of multiple populations with different chemical compositions has been a major challenge to constrain stellar masses and RGB mass losses. Recent work has disentangled the distinct stellar populations along the RGB and the horizontal branch (HB) of 46 GCs, thus providing the possibility to estimate the RGB mass loss of each stellar population. The mass losses inferred for the stellar populations with pristine chemical composition (called first-generation or 1G stars) tightly correlate with cluster metallicity. This finding allows us to derive an empirical RGB mass-loss law for 1G stars. In this paper we investigate seven GCs with no evidence of multiple populations and derive the RGB mass loss by means of high-precision {\it Hubble-Space Telescope} photometry and accurate synthetic photometry. We find a cluster-to-cluster variation in the mass loss ranging from $\sim$0.1 to $\sim$0.3 $M_{\odot}$. The RGB mass loss of simple-population GCs correlates with the metallicity of the host cluster. The discovery that simple-population GCs and 1G stars of multiple population GCs follow similar mass-loss vs. metallicity relations suggests that the resulting mass-loss law is a standard outcome of stellar evolution., Comment: 10 pages, 7 figures, 3 tables, accepted for publication on MNRAS

Published

2021

21. Multiple stellar populations in Asymptotic Giant Branch stars of Galactic Globular Clusters

Author

Lagioia, E. P., Milone, A. P., Marino, A. F., Tailo, M., Renzini, A., Carlos, M., Cordoni, G., Dondoglio, E., Jang, S., Karakas, A., and Dotter, A.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Multiple stellar populations (MPs) are a distinct characteristic of Globular Clusters (GCs). Their general properties have been widely studied among main sequence, red giant branch (RGB) and horizontal branch (HB) stars, but a common framework is still missing at later evolutionary stages. We studied the MP phenomenon along the AGB sequences in 58 GCs, observed with the Hubble Space Telescope in ultraviolet (UV) and optical filters. By using UV-optical color-magnitude diagrams, we selected the AGB members of each cluster and identified the AGB candidates of the metal-enhanced population in type II GCs. We studied the photometric properties of AGB stars and compared them to theoretical models derived from synthetic spectra analysis. We observe the following features: i) the spread of AGB stars in photometric indices sensitive to variations of light-elements and helium is typically larger than that expected from photometric errors; ii) the fraction of metal-enhanced stars in the AGB is lower than in the RGB in most of the type II GCs; iii) the fraction of 1G stars derived from the chromosome map of AGB stars in 15 GCs is larger than that of RGB stars; v) the AGB/HB frequency correlates with the average mass of the most helium-enriched population. These findings represent a clear evidence of the presence of MPs along the AGB of Galactic GCs and indicate that a significant fraction of helium-enriched stars, which have lower mass in the HB, does not evolve to the AGB phase, leaving the HB sequence towards higher effective temperatures, as predicted by the AGB-manqu\'e scenario., Comment: 32 pages, 19 figures, 3 tables

Published

2021

22. Mass loss along the red giant branch in 46 Globular Clusters and their multiple populations

Author

Tailo, M., Milone, A. P., Lagioia, E. P., D'Antona, F., Marino, A. F., Vesperini, E., Caloi, V., Ventura, P., Dondoglio, E., and Cordoni, G.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The location of Galactic Globular Clusters' (GC) stars on the horizontal branch (HB) should mainly depend on GC metallicity, the "first parameter", but it is actually the result of complex interactions between the red giant branch (RGB) mass loss, the coexistence of multiple stellar populations with different helium content, and the presence of a "second parameter" which produces dramatic differences in HB morphology of GCs of similar metallicity and ages (like the pair M3--M13). In this work, we combine the entire dataset from the Hubble Space Telescope Treasury survey and stellar evolutionary models, to analyse the HBs of 46 GCs. For the first time in a large sample of GCs, we generate population synthesis models, where the helium abundances for the first and the "extreme" second generations are constrained using independent measurements based on RGB stars. The main results are: 1) the mass loss of first generation stars is tightly correlated to cluster metallicity. 2) the location of helium enriched stars on the HB is reproduced only by adopting a higher RGB mass loss than for the first generation. The difference in mass loss correlates with helium enhancement and cluster mass. 3) A model of "pre-main sequence disc early loss", previously developed by the authors, explains such a mass loss increase and is consistent with the findings of multiple-population formation models predicting that populations more enhanced in helium tend to form with higher stellar densities and concentrations. 4) Helium-enhancement and mass-loss both contribute to the second parameter., Comment: 29 pages, 30 figures, 4 tables. Accepted for publication in MNRAS

Published

2020

23. Gaia and Hubble unveil the kinematics of stellar populations in the Type II globular clusters {\omega} Centauri and M 22

Author

Cordoni, G., Milone, A. P., Marino, A. F., Da Costa, G. S., Dondoglio, E., Jerjen, H., Lagioia, E. P., Mastrobuono-Battisti, A., Norris, J. E., Tailo, M., and Yong, D.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The origin of multiple stellar populations in Globular Clusters (GCs) is one of the greatest mysteries of modern stellar astrophysics. N-body simulations suggest that the present-day dynamics of GC stars can constrain the events that occurred at high redshift and led to the formation of multiple populations. Here, we combine multi-band photometry from the Hubble Space Telescope (HST) and ground-based facilities with HST and Gaia Data Release 2 proper motions to investigate the spatial distributions and the motions in the plane of the sky of multiple populations in the type II GCs NGC 5139 ($\omega\,$Centauri) and NGC 6656 (M 22). We first analyzed stellar populations with different metallicities. Fe-poor and Fe-rich stars in M 22 share similar spatial distributions and rotation patterns and exhibit similar isotropic motions. Similarly, the two main populations with different iron abundance in $\omega\,$Centauri share similar ellipticities and rotation patterns. When analyzing different radial regions, we find that the rotation amplitude decreases from the center towards the external regions. Fe-poor and Fe-rich stars of $\omega\,$Centauri are radially anisotropic in the central region and show similar degrees of anisotropy. We also investigate the stellar populations with different light-element abundances and find that their N-rich stars exhibit higher ellipticity than N-poor stars. In $\omega\,$Centauri Centauri both stellar groups are radially anisotropic. Interestingly, N-rich, Fe-rich stars exhibit different rotation patterns than N-poor stars with similar metallicities. The stellar populations with different nitrogen of M 22 exhibit similar rotation patterns and isotropic motions. We discuss these findings in the context of the formation of multiple populations., Comment: 24 pages, 13 figures, accepted for publication in ApJ

Published

2020

24. A chromosome map to unveil stellar populations with different magnesium abundances. The case of Omega Centauri

Author

Milone, A. P., Marino, A. F., Renzini, A., Li, C., Jang, S., Lagioia, E. P., Tailo, M., Cordoni, G., Carlos, M., and Dondoglio, E.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Historically, photometry has been largely used to identify stellar populations (MPs) in Globular Clusters (GCs) by using diagrams that are based on colours and magnitudes that are mostly sensitive to stars with different metallicities or different abundances of helium, carbon, nitrogen and oxygen. In particular, the pseudo two-colour diagram called chromosome map (ChM), allowed the identification and the characterization of MPs in about 70 GCs by using appropriate filters of the Hubble Space Telescope (HST) that are sensitive to the stellar content of He, C, N, O and Fe. We use here high-precision HST photometry from F275W, F280N, F343N, F373N, and F814W images of Omega Centauri to investigate its MPs. We introduce a new ChM whose abscissa and ordinate are mostly sensitive to stellar populations with different magnesium and nitrogen, respectively, in monometallic GCs. This ChM is effective in disentangling the MPs based on their Mg chemical abundances, allowing us to explore, for the first time, possible relations between the production of these elemental species for large samples of stars in GCs. By comparing the colours of the distinct stellar populations with the colours obtained from appropriate synthetic spectra we provide 'photometric-like' estimates of the chemical composition of each population. Our results show that, in addition to first generation (1G) stars, the metal-poor population of Omega Centauri hosts four groups of second-generation stars with different [N/Fe], namely, 2GA--D. 2GA stars share nearly the same [Mg/Fe] as the 1G, whereas 2GB, 2GC and 2GD stars are Mg depleted by ~0.15, ~0.25 and ~0.45 dex, respectively. We provide evidence that the metal-intermediate populations host stars with depleted [Mg/Fe]., Comment: 15 pages, 11 figures, accepted for publication in MNRAS

Published

2020

25. Multiple populations in globular clusters and their parent galaxies

Author

Milone, A. P., Marino, A. F., Da Costa, G. S., Lagioia, E. P., D'Antona, F., Goudfrooij, P., Jerjen, H., Massari, D., Renzini, A., Yong, D., Baumgardt, H., Cordoni, G., Dondoglio, E., Li, C., Tailo, M., Asa'd, R., and Ventura, E. M.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

The 'chromosome map' diagram (ChM) proved a successful tool to identify and characterize multiple populations (MPs) in 59 Galactic Globular Clusters (GCs). Here, we construct ChMs for 11 GCs of both Magellanic Clouds (MCs) and with different ages to compare MPs in Galactic and extra-Galactic environments, and explore whether this phenomenon is universal through 'place' and 'time'. MPs are detected in five clusters. The fractions of 1G stars, ranging from about 50% to more than 80%, are significantly higher than those observed in Galactic GCs with similar present-day masses. By considering both Galactic and MC clusters, the fraction of 1G stars exhibits: (i) a strong anti-correlation with the present-day mass, and (ii) with the present-day mass of 2G stars; (iii) a mild anti-correlation with 1G present-day mass. All Galactic clusters without MPs have initial masses smaller than ~1.5 10^5 solar masses but a mass threshold governing the occurrence of MPs seems challenged by massive simple-population MC GCs; (iv) Milky Way clusters with large perigalactic distances typically host larger fractions of 1G stars, but the difference disappears when we use initial cluster masses. These facts are consistent with a scenario where the stars lost by GCs mostly belong to the 1G. By exploiting recent work based on Gaia, half of the known Type II GCs appear clustered in a distinct region of the integral of motions space, thus suggesting a common progenitor galaxy. Except for these Type II GCs,we do not find any significant difference in the MPs between clusters associated with different progenitors., Comment: 18 pages, 13 figures, accepted for publication in MNRAS

Published

2019

26. Spectrophotometry and radial distribution of multiple stellar populations in globular clusters from Gaia XP spectra.

Author

Mehta, V J, Milone, A P, Casagrande, L, Marino, A F, Legnardi, M V, Cordoni, G, Dondoglio, E, Jang, S, Lionetto, S, Ziliotto, T, Barbieri, M, Bernizzoni, M, Bortolan, E, Bouras Moreno Sanchez, A, Lagioia, E P, Mohandasan, A, and Muratore, F

Subjects

STELLAR populations, GIANT stars, STAR clusters, GENE mapping, GLOBULAR clusters, SPECTROPHOTOMETRY

Abstract

Understanding the formation of multiple populations in globular clusters (GCs) represents a challenge for stellar population studies. Nevertheless, the outermost cluster regions, likely to hold clues about the initial configuration of GC stars, remain underexplored. We use synthetic spectra reflecting the chemical compositions of first- and second-population (1P, 2P) stars in 47 Tucanae to identify spectral regions sensitive to these populations. This led us to define new photometric bands that effectively distinguish 1P and 2P giant stars using Gaia XP spectra. Testing these filters, we constructed the pseudo two-colour diagrams dubbed chromosome maps (ChMs) and, for the first time, identified 1P and 2P stars in the cluster's outermost regions and beyond its tidal radius. We constructed similar diagrams for NGC 3201, NGC 6121, NGC 6752, and NGC 6397, thus exploring GCs with different metallicities. The ChMs effectively distinguished multiple populations in the outer regions of all clusters, except for the metal-poor NGC 6397. Our findings, together with literature results from more-internal regions, show that the 2P stars of 47 Tucanae are more-centrally concentrated than the 1P. A similar pattern is seen for 2P stars with extreme chemical composition of NGC 3201. The multiple populations of NGC 6121, and NGC 6752 share the same radial distributions. These radial behaviours are consistent with the GC formation scenarios where 2P stars originate in the central regions. Noticeably, results on NGC 3201 are in tension with the conclusion from recent work that its 1P is more centrally concentrated than the 2P and might form with more central concentration. [ABSTRACT FROM AUTHOR]

Published

2025

27. The original composition of the gas forming first-generation stars in clusters: Insights from HST and JWST.

Author

Legnardi, M. V., Milone, A. P., Cordoni, G., Marino, A. F., Dondoglio, E., Jang, S., Lagioia, E P., Muratore, F., Ziliotto, T., Bortolan, E., and Mohandasan, A.

Subjects

STAR clusters, STELLAR populations, GIANT stars, STELLAR parallax, STELLAR mass, GLOBULAR clusters

Abstract

Globular cluster (GC) stars composed of pristine material, also known as first-generation (1G) stars, are not chemically homogeneous as they exhibit extended sequences in the chromosome map (ChM). Recent studies characterized 1G stars within the center of 55 Galactic GCs, revealing metallicity variations. Despite this progress, several unanswered questions persist, particularly concerning the link between the 1G metallicity spread and factors such as the radial distance from the cluster center or the host GC parameters. Additionally, it remains unclear whether the extended 1G sequence phenomenon is exclusive to old Galactic GCs with multiple populations. This work addresses these open issues, examining 1G stars in different environments. First, we combine Hubble Space Telescope (HST) and James Webb Space Telescope photometry of the GC 47 Tucanae to study 1G stars at increasing distances from the cluster center. We find that metal-rich 1G stars are more centrally concentrated than metal-poor ones, suggesting a metallicity radial gradient. Additionally, the two groups of 1G stars share similar kinematics. Since our analysis focuses on giant stars in the cluster center and M dwarfs in external fields, we discuss the possibility that the metallicity distribution depends on stellar mass. Subsequently, we analyze HST multi-band photometry of two simple-population clusters, NGC 6791 and NGC 1783, revealing elongated sequences in the ChM associated with metallicity variations. Finally, we investigate the 1G color distribution in 51 GCs, finding no connections with the host cluster parameters. These results shed light on the complex nature of 1G stars, providing insights into the GC formation environment. [ABSTRACT FROM AUTHOR]

Published

2024

28. The Metallicity Variations Along the Chromosome Maps: The Globular Cluster 47 Tucanae*

Author

Marino, A. F., primary, Milone, A. P., additional, Dondoglio, E., additional, Renzini, A., additional, Cordoni, G., additional, Jerjen, H., additional, Karakas, A., additional, Lagioia, E. P., additional, Legnardi, M. V., additional, McKenzie, M., additional, Mohandasan, A., additional, Tailo, M., additional, Yong, D., additional, and Ziliotto, T., additional

Published

2023

29. Photometric binaries in 14 Magellanic Cloud star clusters

Author

Mohandasan, A., primary, Milone, A.P., additional, Cordoni, G., additional, Dondoglio, E., additional, Lagioia, E.P., additional, Legnardi, M.V., additional, Ziliotto, T., additional, Jang, S., additional, Marino, A.F., additional, and Carlos, M., additional

Published

2023

30. A deep dive into the Type II Globular Cluster NGC 1851

Author

Dondoglio, E, primary, Milone, A P, additional, Marino, A F, additional, D’Antona, F, additional, Cordoni, G, additional, Legnardi, M V, additional, Lagioia, E P, additional, Jang, S, additional, Ziliotto, T, additional, Carlos, M, additional, Dell’Agli, F, additional, Karakas, A, additional, Mohandasan, A, additional, Osborn, Z, additional, Tailo, M, additional, and Ventura, P, additional

Published

2023

31. Hubble Space Telescope survey of Magellanic Cloud star clusters. UV-dim stars in young clusters

Author

Milone, A P, primary, Cordoni, G, additional, Marino, A F, additional, Muratore, F, additional, D’Antona, F, additional, Di Criscienzo, M, additional, Dondoglio, E, additional, Lagioia, E P, additional, Legnardi, M V, additional, Mohandasan, A, additional, Ziliotto, T, additional, Dell’Agli, F, additional, Tailo, M, additional, and Ventura, P, additional

Published

2023

32. The chemical compositions of multiple stellar populations in the globular cluster NGC 2808

Author

Carlos, M., Marino, A. F., Milone, A. P., Dondoglio, E., Jang, S., Legnardi, M. V., Mohandasan, A., Cordoni, G., Lagioia, E. P., Amarsi, Anish, Jerjen, H., Carlos, M., Marino, A. F., Milone, A. P., Dondoglio, E., Jang, S., Legnardi, M. V., Mohandasan, A., Cordoni, G., Lagioia, E. P., Amarsi, Anish, and Jerjen, H.

Abstract

Pseudo two-colour diagrams or Chromosome maps (ChM) indicate that NGC 2808 host five different stellar populations. The existing ChMs have been derived by the Hubble Space Telescope photometry, and comprise of stars in a small field of view around the cluster centre. To overcome these limitations, we built a ChM with U, B, I photometry from ground-based facilities that disentangle the multiple stellar populations of NGC 2808 over a wider field of view. We used spectra collected by GIRAFFE@VLT in a sample of 70 red giant branch and seven asymptotic giant branch (AGB) stars to infer the abundances of C, N, O, Al, Fe, and Ni, which combined with literature data for other elements (Li, Na, Mg, Si, Ca, Sc, Ti, Cr, and Mn), and together with both the classical and the new ground-based ChMs, provide the most complete chemical characterization of the stellar populations in NGC 2808 available to date. As typical of the multiple population phenomenon in globular clusters, the light elements vary from one stellar population to another; whereas the iron peak elements show negligible variation between the different populations (at a level of less than or similar to 0.10 dex). Our AGB stars are also characterized by the chemical variations associated with the presence of multiple populations, confirming that this phase of stellar evolution is affected by the phenomenon as well. Intriguingly, we detected one extreme O-poor AGB star (consistent with a high He abundance), challenging stellar evolution models that suggest that highly He-enriched stars should avoid the AGB phase and evolve as AGB-manque star.

Published

2023

33. Differential reddening in the direction of 56 Galactic globular clusters

Author

Legnardi, M V, primary, Milone, A P, additional, Cordoni, G, additional, Lagioia, E P, additional, Dondoglio, E, additional, Marino, A F, additional, Jang, S, additional, Mohandasan, A, additional, and Ziliotto, T, additional

Published

2023

34. Multiple stellar populations in globular clusters with JWST: an NIRCam view of 47 Tucanae

Author

Milone, A P, primary, Marino, A F, additional, Dotter, A, additional, Ziliotto, T, additional, Dondoglio, E, additional, Cordoni, G, additional, Jang, S, additional, Lagioia, E P, additional, Legnardi, M V, additional, Mohandasan, A, additional, Tailo, M, additional, Yong, D, additional, Baimukhametova, S, additional, and Carlos, M, additional

Published

2023

35. Hubble Space Telescope survey of Magellanic Cloud star clusters

Author

Milone, A. P., primary, Cordoni, G., additional, Marino, A. F., additional, D’Antona, F., additional, Bellini, A., additional, Di Criscienzo, M., additional, Dondoglio, E., additional, Lagioia, E. P., additional, Langer, N., additional, Legnardi, M. V., additional, Libralato, M., additional, Baumgardt, H., additional, Bettinelli, M., additional, Cavecchi, Y., additional, de Grijs, R., additional, Deng, L., additional, Hastings, B., additional, Li, C., additional, Mohandasan, A., additional, Renzini, A., additional, Vesperini, E., additional, Wang, C., additional, Ziliotto, T., additional, Carlos, M., additional, Costa, G., additional, Dell’Agli, F., additional, Di Stefano, S., additional, Jang, S., additional, Martorano, M., additional, Simioni, M., additional, Tailo, M., additional, and Ventura, P., additional

Published

2023

36. Hubble Space Telescope survey of Magellanic Cloud star clusters

Author

Milone, Antonino P., Cordoni, G., Marino, A. F., D???antona, F., Bellini, A., Di Criscienzo, M., Dondoglio, E., Lagioia, E. P., Langer, N., Legnardi, M. V., Libralato, M., Baumgardt, H., Bettinelli, M., Cavecchi, Y., de Grijs, R., Deng, L., Hastings, B., Li, C., Mohandasan, A., Renzini, A., Vesperini, E., Wang, C., Ziliotto, T., Carlos, M., Costa, G., Dell???agli, F., Allievi, Stefano, Jang, S., Martorano, M., Simioni, M., Tailo, M., and Ventura, P.

Published

2023

37. The chemical compositions of multiple stellar populations in the globular cluster NGC 2808

Author

Carlos, M, primary, Marino, A F, additional, Milone, A P, additional, Dondoglio, E, additional, Jang, S, additional, Legnardi, M V, additional, Mohandasan, A, additional, Cordoni, G, additional, Lagioia, E P, additional, Amarsi, A M, additional, and Jerjen, H, additional

Published

2022

38. Chromosome maps of globular clusters from wide-field ground-based photometry

Author

Jang, S, primary, Milone, A P, additional, Legnardi, M V, additional, Marino, A F, additional, Mastrobuono-Battisti, A, additional, Dondoglio, E, additional, Lagioia, E P, additional, Casagrande, L, additional, Carlos, M, additional, Mohandasan, A, additional, Cordoni, G, additional, Bortolan, E, additional, and Lee, Y-W, additional

Published

2022

39. Constraining the original composition of the gas forming first-generation stars in globular clusters

Author

Legnardi, M V, primary, Milone, A P, additional, Armillotta, L, additional, Marino, A F, additional, Cordoni, G, additional, Renzini, A, additional, Vesperini, E, additional, D’Antona, F, additional, McKenzie, M, additional, Yong, D, additional, Dondoglio, E, additional, Lagioia, E P, additional, Carlos, M, additional, Tailo, M, additional, Jang, S, additional, and Mohandasan, A, additional

Published

2022

40. Survey of Multiple Populations in Globular Clusters among Very-low-mass Stars

Author

Dondoglio, E., primary, Milone, A. P., additional, Renzini, A., additional, Vesperini, E, additional, Lagioia, E. P., additional, Marino, A. F., additional, Bellini, A., additional, Carlos, M., additional, Cordoni, G., additional, Jang, S., additional, Legnardi, M. V., additional, Libralato, M, additional, Mohandasan, A., additional, D’Antona, F., additional, Martorano, M., additional, Muratore, F., additional, and Tailo, M., additional

Published

2022

41. The chemical compositions of multiple stellar populations in the globular cluster NGC 2808.

Author

Carlos, M, Marino, A F, Milone, A P, Dondoglio, E, Jang, S, Legnardi, M V, Mohandasan, A, Cordoni, G, Lagioia, E P, Amarsi, A M, and Jerjen, H

Subjects

STELLAR populations, GLOBULAR clusters, STELLAR evolution, ASYMPTOTIC giant branch stars, RED giants, SPACE telescopes, ALKALINE earth metals, TRACE elements

Abstract

Pseudo two-colour diagrams or Chromosome maps (ChM) indicate that NGC 2808 host five different stellar populations. The existing ChMs have been derived by the Hubble Space Telescope photometry, and comprise of stars in a small field of view around the cluster centre. To overcome these limitations, we built a ChM with U ,  B ,  I photometry from ground-based facilities that disentangle the multiple stellar populations of NGC 2808 over a wider field of view. We used spectra collected by GIRAFFE@VLT in a sample of 70 red giant branch and seven asymptotic giant branch (AGB) stars to infer the abundances of C, N, O, Al, Fe, and Ni, which combined with literature data for other elements (Li, Na, Mg, Si, Ca, Sc, Ti, Cr, and Mn), and together with both the classical and the new ground-based ChMs, provide the most complete chemical characterization of the stellar populations in NGC 2808 available to date. As typical of the multiple population phenomenon in globular clusters, the light elements vary from one stellar population to another; whereas the iron peak elements show negligible variation between the different populations (at a level of ≲0.10 dex). Our AGB stars are also characterized by the chemical variations associated with the presence of multiple populations, confirming that this phase of stellar evolution is affected by the phenomenon as well. Intriguingly, we detected one extreme O-poor AGB star (consistent with a high He abundance), challenging stellar evolution models that suggest that highly He-enriched stars should avoid the AGB phase and evolve as AGB-manqué star. [ABSTRACT FROM AUTHOR]

Published

2023

42. Spectroscopy and Photometry of the Least Massive Type II Globular Clusters: NGC 1261 and NGC 6934*

Author

Marino, A. F., primary, Milone, A. P., additional, Renzini, A., additional, Yong, D., additional, Asplund, M., additional, Da Costa, G. S., additional, Jerjen, H., additional, Cordoni, G., additional, Carlos, M., additional, Dondoglio, E., additional, Lagioia, E. P., additional, Jang, S., additional, and Tailo, M., additional

Published

2021

43. Integrated Photometry of Multiple Stellar Populations in Globular Clusters

Author

Jang, S., primary, Milone, A. P., additional, Lagioia, E. P., additional, Tailo, M., additional, Carlos, M., additional, Dondoglio, E., additional, Martorano, M., additional, Mohandasan, A., additional, Marino, A. F., additional, Cordoni, G., additional, and Lee, Y.-W., additional

Published

2021

44. Multiple Stellar Populations in AGB stars of Galactic Globular Clusters

Author

Lagioia, E. P., Milone, A. P., Marino, A. F., Tailo, M., Renzini, A., Carlos, M., Cordoni, G., Dondoglio, E., Jang, S., Karakas, A., and Dotter, A.

Subjects

Chemical enrichment, Astrophysics::Solar and Stellar Astrophysics, Globular Star Clusters, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Stellar populations, AGB stars, Milky Way Galaxy, Astrophysics::Galaxy Astrophysics

Abstract

Multiple stellar populations (MPs) are a common feature of Globular Clusters (GCs). Their general properties have been widely studied among main-sequence, red giant branch (RGB) and horizontal branch (HB) stars, but a common framework is still missing at later evolutionary stages.We studied the MP phenomenon along the asymptotic giant branch (AGB)sequences in 58 GCs, observed with the HubbleSpace Telescope in UVand optical bands. Using UV-optical color-magnitude diagrams, weselectedthe AGB members of each cluster and identifiedthe AGB candidates. We studied the photometric properties of the AGB stars and found that: 1) the spread of AGB stars in photometric indices sensitive to chemicalvariations of light-elements and helium is typically larger than thatexpected from photometric errors; 2) the fraction of metal-enhanced ("anomalous") stars in the AGB is on average lower than in the RGB ; 3) the fraction of 1G stars derived from the chromosome map of AGB stars in 15 GCs is larger than that inRGB stars; 4) the AGB/HB frequency correlates with the average mass of the mosthelium-enriched population.These findings represent a clear evidence of the presence of MPs along the AGB of Galactic GCsand indicate that a significant fraction of helium-enriched starsdonot evolve to the AGB phase, leaving the HB sequence towardhigher effective temperatures, aspredicted by the AGB manquéscenario.

Published

2021

45. Mass-loss law for red giant stars in simple population globular clusters

Author

Tailo, M, primary, Milone, A P, additional, Lagioia, E P, additional, D’Antona, F, additional, Jang, S, additional, Vesperini, E, additional, Marino, A F, additional, Ventura, P, additional, Caloi, V, additional, Carlos, M, additional, Cordoni, G, additional, Dondoglio, E, additional, Mohandasan, A, additional, Nastasio, J E, additional, and Legnardi, M V, additional

Published

2021

46. Multiple Stellar Populations in Asymptotic Giant Branch Stars of Galactic Globular Clusters

Author

Lagioia, E. P., primary, Milone, A. P., additional, Marino, A. F., additional, Tailo, M., additional, Renzini, A., additional, Carlos, M., additional, Cordoni, G., additional, Dondoglio, E., additional, Jang, S., additional, Karakas, A., additional, and Dotter, A., additional

Published

2021

47. Multiple Stellar Populations along the Red Horizontal Branch and Red Clump of Globular Clusters

Author

Dondoglio, E., primary, Milone, A. P., additional, Lagioia, E. P., additional, Marino, A. F., additional, Tailo, M., additional, Cordoni, G., additional, Jang, S., additional, and Carlos, M., additional

Published

2021

48. Mass-loss along the red giant branch in 46 globular clusters and their multiple populations

Author

Tailo, M, primary, Milone, A P, additional, Lagioia, E P, additional, D’Antona, F, additional, Marino, A F, additional, Vesperini, E, additional, Caloi, V, additional, Ventura, P, additional, Dondoglio, E, additional, and Cordoni, G, additional

Published

2020

49. Gaia and Hubble Unveil the Kinematics of Stellar Populations in the Type II Globular Clusters ω Centauri and M22

Author

Cordoni, G., primary, Milone, A. P., additional, Marino, A. F., additional, Da Costa, G. S., additional, Dondoglio, E., additional, Jerjen, H., additional, Lagioia, E. P., additional, Mastrobuono-Battisti, A., additional, Norris, J. E., additional, Tailo, M., additional, and Yong, D., additional

Published

2020

50. A chromosome map to unveil stellar populations with different magnesium abundances. The case of ω Centauri

Author

Milone, A P, primary, Marino, A F, additional, Renzini, A, additional, Li, C, additional, Jang, S, additional, Lagioia, E P, additional, Tailo, M, additional, Cordoni, G, additional, Carlos, M, additional, and Dondoglio, E, additional

Published

2020