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| Format: | Preprint |
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2024
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| Online Access: | https://arxiv.org/abs/2410.11950 |
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| _version_ | 1866914974147805184 |
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| author | Parmentier, Geneviève |
| author_facet | Parmentier, Geneviève |
| contents | Galactic globular clusters contain two main groups of stars, the pristine or 1P stars, and the polluted or 2P stars. The pristine-star fraction in clusters, $F_{1P}$, is a decreasing function of the cluster present-day mass, $m_{prst}$. Paper~I has introduced a model mapping the region of the $(m_{prst},F_{1P})$ space occupied by clusters, with the cluster mass threshold for 2P-star formation a key building-block. We now expand this model to the pristine-star fraction in dependence of the pristine- and polluted-population masses. Milone et al.(2020) found that $F_{1P}$ anticorrelates more tightly with the polluted-population present-day mass, $m_{2P,prst}$, than with the cluster total mass, $m_{prst}$. In contrast, $F_{1P}$ anticorrelates poorly with the pristine-population current mass, $m_{1P,prst}$. We show the loose anticorrelation between $F_{1P}$ and $m_{1P,prst}$ to result from a roughly constant pristine-population mass among clusters as they start their long-term evolution in the Galactic tidal field. As for the tight anticorrelation between $m_{2P,prst}$ and $F_{1P}$, it stems from the initially shallow relation between $m_{2P}$ and $F_{1P}$ (Fig.4). Clusters of the Large and Small Magellanic Clouds (LMC and SMC, respectively) appear to behave unexpectedly with respect to each other. For a given $F_{1P}$, LMC clusters are more massive than SMC clusters despite their enduring a stronger tidal field (Fig.6). This is opposite to how the Galactic outer- and inner-halo clusters behave (bottom panels of Figs 1-3). The explanation may lie in cluster formation conditions. Finally, we wonder whether the single-population clusters NGC~419 and Rup~106 formed as multiple-populations clusters. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2410_11950 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Cracking the relation between mass and 1P-star fraction of globular clusters: II. The masses in 1P and 2P stars as a second tool Parmentier, Geneviève Astrophysics of Galaxies Galactic globular clusters contain two main groups of stars, the pristine or 1P stars, and the polluted or 2P stars. The pristine-star fraction in clusters, $F_{1P}$, is a decreasing function of the cluster present-day mass, $m_{prst}$. Paper~I has introduced a model mapping the region of the $(m_{prst},F_{1P})$ space occupied by clusters, with the cluster mass threshold for 2P-star formation a key building-block. We now expand this model to the pristine-star fraction in dependence of the pristine- and polluted-population masses. Milone et al.(2020) found that $F_{1P}$ anticorrelates more tightly with the polluted-population present-day mass, $m_{2P,prst}$, than with the cluster total mass, $m_{prst}$. In contrast, $F_{1P}$ anticorrelates poorly with the pristine-population current mass, $m_{1P,prst}$. We show the loose anticorrelation between $F_{1P}$ and $m_{1P,prst}$ to result from a roughly constant pristine-population mass among clusters as they start their long-term evolution in the Galactic tidal field. As for the tight anticorrelation between $m_{2P,prst}$ and $F_{1P}$, it stems from the initially shallow relation between $m_{2P}$ and $F_{1P}$ (Fig.4). Clusters of the Large and Small Magellanic Clouds (LMC and SMC, respectively) appear to behave unexpectedly with respect to each other. For a given $F_{1P}$, LMC clusters are more massive than SMC clusters despite their enduring a stronger tidal field (Fig.6). This is opposite to how the Galactic outer- and inner-halo clusters behave (bottom panels of Figs 1-3). The explanation may lie in cluster formation conditions. Finally, we wonder whether the single-population clusters NGC~419 and Rup~106 formed as multiple-populations clusters. |
| title | Cracking the relation between mass and 1P-star fraction of globular clusters: II. The masses in 1P and 2P stars as a second tool |
| topic | Astrophysics of Galaxies |
| url | https://arxiv.org/abs/2410.11950 |