Remnants Of An Old Neighbour Engulfed By The Milky Way (Astronomy)

April’s Monthly Media is brought to us by PhD student Anishya Harshan from UNSW on a paper released in mid-2020. The paper, lead by Zhen Wan from USyd and co-authored by ASTRO 3D researchers and affiliates Jeffrey SimpsonSarah MartellSanjib Sharma and Gayandhi De Silva, provides a new perspective about how galaxies evolve.

The research looks at a star cluster that is in the process of being pulled into the Milky Way, and may very well be the last of its kind.

What they found is a globular star cluster with the lowest yet recorded levels of metals (in astronomy, “metals” are elements other than Hydrogen and Helium) found in the Phoenix stellar stream, a set of stars in the halo of the Milky Way. The stream is believed to be the remnants of a globular star cluster, spread out over time.

Until Wan and colleagues made their measurements, astronomers believed that star clusters in the Milky Way – and in a wide variety of galaxies – all possessed at least a minimum amount of heavy metals such as iron (Fe). No clusters had been found that contained less than 0.3 per cent of the metals found in the Sun.

It was thought that this level constituted a “metallicity floor”, beneath which no star cluster could exist in the present-day Universe.

The Phoenix stream, however, contains a substantially lower component – less than 0.0019 times the metallicity of the Sun – meaning that its stars were formed much earlier in the life of the Universe. Low metallicity stars are thought to have formed as long as 10 billion years ago.

Distribution of metal content in globular cluster members. The phoenix stream member stars (orange) have lower metallicity than the previously expected metallicity floor (black dashed line) and stars from other globular clusters (blue). © ASTRO 3D

“The Phoenix stream thus represents the debris of the most metal-poor globular clusters discovered so far,” the scientists write.

Wan and colleagues suggest the ancient cluster was either formed in a dwarf galaxy or in a galaxy with lower than expected metallicity for its size.

“Its existence implies that globular clusters below the metallicity floor have probably existed, but were destroyed during Galactic evolution,” they conclude.

The researchers suggest that further observations – especially those that will derive from the soon-to-be-launched James Webb Space Telescope – will reveal whether the Phoenix stream is a galactic glitch, or whether similar remains of ancient clusters are more common than previously thought.

Featured image: Artist impressions of the thin stream of stars torn from the Phoenix globular cluster, wrapping around the Milky Way (left) and the bright red giant stars used measure the chemical composition of the cluster (right). Image credit: James Josephides, Swinburne Astronomy Productions / S5 Collaboration


Reference: Wan, Z., Lewis, G.F., Li, T.S. et al. The tidal remnant of an unusually metal-poor globular cluster. Nature 583, 768–770 (2020). https://www.nature.com/articles/s41586-020-2483-6 https://doi.org/10.1038/s41586-020-2483-6


Provided by ASTRO 3D

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