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| Main Authors: | , , , , , , , , , , , , , , , |
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| Format: | Preprint |
| Published: |
2025
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2512.03999 |
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| _version_ | 1866917374203002880 |
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| author | Pinna, Francesca Hoyer, Nils Abreu, Jairo Méndez Rodriguez, Adriana de Lorenzo Cáceres Neumayer, Nadine Boquien, Médéric Barrero, Salvador Cardona Dale, Daniel A. Gerasimov, Ivan S. Grasha, Kathryn Klessen, Ralf S. de la Rosa, Carlos Marrero Querejeta, Miguel Williams, Thomas G. Mathur, Smita Schinnerer, Eva |
| author_facet | Pinna, Francesca Hoyer, Nils Abreu, Jairo Méndez Rodriguez, Adriana de Lorenzo Cáceres Neumayer, Nadine Boquien, Médéric Barrero, Salvador Cardona Dale, Daniel A. Gerasimov, Ivan S. Grasha, Kathryn Klessen, Ralf S. de la Rosa, Carlos Marrero Querejeta, Miguel Williams, Thomas G. Mathur, Smita Schinnerer, Eva |
| contents | Nuclear star clusters (NSC) are dense and compact stellar systems, of sizes of few parsecs, located at galactic centers. Their properties and formation mechanisms seem to be tightly linked to the evolution of the host galaxy, with potentially different formation channels for late- and early-type galaxies (respectively, LTGs and ETGs). While most observations target ETGs, here we focus on the NSC in M~74 (NGC~628), a relatively massive, gas-rich and star-forming spiral galaxy, part of the PHANGS survey. We analyzed the central arcmin of the PHANGS-MUSE mosaic, in which the NSC is not spatially resolved. We analyzed the NSC stellar populations in a point spread function (PSF) aperture, and compared it to the host galaxy. Within the PSF size, the NSC is contaminated by the host-galaxy light. We performed a two-dimensional spectro-photometric decomposition of the MUSE cube, employing a modified version of the C2D code, to disentangle the NSC from its host. This method provided different data cubes for the NSC and the host galaxy, allowing for both their comparison in a PSF aperture, and the spatially resolved analysis of the host. Our results show a very old and metal-poor NSC, in contrast to the surrounding regions. While similar properties were found in NSCs hosted by galaxies of different masses and/or morphological types from M~74, they are somewhat unexpected for a relatively massive star-forming spiral galaxy. The spatially resolved stellar populations of the host galaxy display much younger (light-weighted) ages and higher metallicities, especially in the central region (${\sim}500$~pc) surrounding the NSC. This suggests that this NSC formed a long time ago, and evolved passively until today, without any further growth. No significant amounts of gas would have reached the very central region in the last 8~Gyr. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2512_03999 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | The Nuclear Star Cluster of M 74: a fossil record of the very early stages of a star-forming galaxy Pinna, Francesca Hoyer, Nils Abreu, Jairo Méndez Rodriguez, Adriana de Lorenzo Cáceres Neumayer, Nadine Boquien, Médéric Barrero, Salvador Cardona Dale, Daniel A. Gerasimov, Ivan S. Grasha, Kathryn Klessen, Ralf S. de la Rosa, Carlos Marrero Querejeta, Miguel Williams, Thomas G. Mathur, Smita Schinnerer, Eva Astrophysics of Galaxies Nuclear star clusters (NSC) are dense and compact stellar systems, of sizes of few parsecs, located at galactic centers. Their properties and formation mechanisms seem to be tightly linked to the evolution of the host galaxy, with potentially different formation channels for late- and early-type galaxies (respectively, LTGs and ETGs). While most observations target ETGs, here we focus on the NSC in M~74 (NGC~628), a relatively massive, gas-rich and star-forming spiral galaxy, part of the PHANGS survey. We analyzed the central arcmin of the PHANGS-MUSE mosaic, in which the NSC is not spatially resolved. We analyzed the NSC stellar populations in a point spread function (PSF) aperture, and compared it to the host galaxy. Within the PSF size, the NSC is contaminated by the host-galaxy light. We performed a two-dimensional spectro-photometric decomposition of the MUSE cube, employing a modified version of the C2D code, to disentangle the NSC from its host. This method provided different data cubes for the NSC and the host galaxy, allowing for both their comparison in a PSF aperture, and the spatially resolved analysis of the host. Our results show a very old and metal-poor NSC, in contrast to the surrounding regions. While similar properties were found in NSCs hosted by galaxies of different masses and/or morphological types from M~74, they are somewhat unexpected for a relatively massive star-forming spiral galaxy. The spatially resolved stellar populations of the host galaxy display much younger (light-weighted) ages and higher metallicities, especially in the central region (${\sim}500$~pc) surrounding the NSC. This suggests that this NSC formed a long time ago, and evolved passively until today, without any further growth. No significant amounts of gas would have reached the very central region in the last 8~Gyr. |
| title | The Nuclear Star Cluster of M 74: a fossil record of the very early stages of a star-forming galaxy |
| topic | Astrophysics of Galaxies |
| url | https://arxiv.org/abs/2512.03999 |