Potassium abundances in multiple stellar populations of the globular cluster NGC 4833

NGC 4833 is a metal-poor Galactic globular cluster (GC) whose multiple stellar populations present an extreme chemical composition. The Na-O anti-correlation is quite extended, which is in agreement with the long tail on the blue horizontal branch, and the large star-to-star variations in the [Mg/Fe] ratio span more than 0.5 dex. Recently, significant excesses of Ca and Sc with respect to field stars of a similar metallicity were also found, signaling the production of species forged in H-burning at a very high temperature in the polluters of the first generation in this cluster. Since an enhancement of potassium is also expected under these conditions, we tested this scenario by analysing intermediate resolution spectra of 59 cluster stars including the KI resonance line at 7698.98 angstrom. We found a wide spread of K abundances, anti-correlated to Mg and O abundances, as previously also observed in NGC 2808. The abundances of K are found to be correlated to those of Na, Ca, and Sc. Overall, this chemical pattern confirms that NGC 4833 is one of the relatively few GCs where the self-enrichment from first generation polluters occurred at such high temperatures that proton-capture reactions were able to proceed up to heavier species such as K and possibly Ca. The spread in K observed in GCs appears to be a function of a linear combination of cluster total luminosity and metallicity, as other chemical signatures of multiple stellar populations in GCs.

Automated summary

NGC 4833 is a metal-poor Galactic globular cluster with extreme chemical composition, including a broad Na-O anti-correlation and significant excesses of Ca and Sc. The study confirms that self-enrichment from first generation polluters occurred at high temperatures, producing species such as K and possibly Ca. The abundance of potassium in GCs appears to be related to other elements, indicating a complex chemical pattern in multiple stellar populations.