# Star Clusters in the Elliptical Galaxy NGC 4589 Hosting a Calcium-rich   SN Ib (SN 2005CZ)

**Authors:** Myung Gyoon Lee, In Sung Jang, and Jisu Kang

arXiv: 1812.01629 · 2019-01-30

## TL;DR

This study uses Hubble Space Telescope data to identify star clusters in NGC 4589, providing insights into the progenitor of the calcium-rich SN 2005cz and refining the galaxy's distance estimate.

## Contribution

It is the first to identify young star clusters in NGC 4589, supporting a massive-star progenitor for SN 2005cz, and to determine the galaxy's globular cluster population and distance.

## Key findings

- Detection of young star clusters supports massive-star progenitor scenario.
- Identification of a bimodal globular cluster color distribution.
- Refined galaxy distance to 25.8 Mpc based on globular cluster luminosity function.

## Abstract

_NGC 4589, a bright E2 merger-remnant galaxy, hosts the peculiar fast and faint calcium-rich Type Ib supernova (SN) SN 2005cz. The progenitor of Ca-rich SNe Ib has been controversial: it could be a) a young massive star with 6-12 M$\odot$ in a binary system, or b) an old low-mass star in a binary system that was kicked out from the galaxy center. Moreover, previous distance estimates for this galaxy have shown a large spread, ranging from 20 Mpc to 60 Mpc. Thus, using archival $Hubble$ $Space$ $Telescope$/ACS $F435W$, $F555W$, and $F814W$ images, we search for star clusters in NGC 4589 in order to help resolve these issues. We find a small population of young star clusters with $25<V\leq27$ ($-7.1<M_V\leq-5.1$) mag and age $< 1$ Gyr in the central region at $R<0.5'$ ($<3.8$ kpc), thus supporting the massive-star progenitor scenario for SN 2005cz. In addition to young star clusters, we also find a large population of old globular clusters. In contrast to previous results in the literature, we find that the color distribution of the globular clusters is clearly bimodal. The turnover (Vega) magnitude in the $V$-band luminosity functions of the blue (metal-poor) globular clusters is determined to be $V_0{(\rm max)}=24.40\pm0.10$ mag. We derive the total number of globular clusters, $N_{\rm GC} =640\pm50$, and the specific frequency, $S_N =1.7\pm0.2$. Adopting a calibration for the metal-poor globular clusters, $M_V({\rm max})=-7.66\pm0.14$ mag, we derive a distance to this galaxy: $(m-M)_0=32.06\pm0.10({\rm ran})\pm0.15({\rm sys})$ ($d=25.8\pm2.2$ Mpc).

## Full text

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## Figures

33 figures with captions in the complete paper: https://tomesphere.com/paper/1812.01629/full.md

## References

57 references — full list in the complete paper: https://tomesphere.com/paper/1812.01629/full.md

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Source: https://tomesphere.com/paper/1812.01629