Nitrogen abundances and multiple stellar populations in the globular clusters of the Fornax dSph

TL;DR

This study investigates nitrogen abundance variations in four metal-poor globular clusters of the Fornax dwarf galaxy, revealing multiple stellar populations similar to those in the Milky Way, and constraining theories of globular cluster formation.

Contribution

It provides the first detailed nitrogen abundance analysis of Fornax GCs, demonstrating the presence of multiple populations and comparing their properties to Galactic GCs.

Findings

Nitrogen abundance spreads of about 2 dex in Fornax GCs.

Approximately equal numbers of N-normal and N-enhanced stars.

Similar formation processes for GCs in Fornax and the Milky Way.

Abstract

We use measurements of nitrogen abundances in red giants to search for multiple stellar populations in the four most metal-poor globular clusters (GCs) in the Fornax dwarf spheroidal galaxy (Fornax 1, 2, 3, and 5). New imaging in the F343N filter, obtained with the Wide Field Camera 3 on the Hubble Space Telescope, is combined with archival F555W and F814W observations to determine the strength of the NH band near 3370 AA. After accounting for observational errors, the spread in the F343N-F555W colors of red giants in the Fornax GCs is similar to that in M15 and corresponds to an abundance range of Delta([N/Fe])=2 dex, as observed also in several Galactic GCs. The spread in F555W-F814W is, instead, fully accounted for by observational errors. The stars with the reddest F343N-F555W colors (indicative of N-enhanced composition) have more centrally concentrated radial distributions in all four clusters, although the difference is not highly statistically significant within any individual cluster. From double-Gaussian fits to the color distributions we find roughly equal numbers of "N-normal" and "N-enhanced" stars (formally about 40% N-normal stars in Fornax 1, 3, and 5 and 60% in Fornax 2). We conclude that GC formation, in particular regarding the processes responsible for the origin of multiple stellar populations, appears to have operated similarly in the Milky Way and in the Fornax dSph. Combined with the high ratio of metal-poor GCs to field stars in the Fornax dSph, this places an important constraint on scenarios for the origin of multiple stellar populations in GCs.