A Number of Nearby Moving Groups may be Fragments of Dissolving Open Clusters

TL;DR

This paper suggests that many nearby moving groups of stars are likely fragments of dissolving open clusters, indicating a more extended and complex structure of stellar associations than previously understood.

Contribution

It introduces the idea that several nearby moving groups are actually tidal tails of open clusters, expanding the understanding of their formation and spatial extent.

Findings

Many moving groups may be parts of tidal tails around open clusters.

Some groups are linked to known clusters like Pleiades and Platais 8.

Extended structures are suggested by Gaia data, but need further confirmation.

Abstract

We propose that fourteen co-moving groups of stars uncovered by Kounkel & Covey (2019) may be related to known nearby moving groups and bridge those and nearby open clusters with similar ages and space velocities. This indicates that known nearby moving groups may be spatially much more extended than previously though, and some of them might be parts of tidal tails around the cores of known open clusters, reminiscent of those recently found around the Hyades and a handful of other nearby clusters. For example, we find that both the nearby Carina and Columba associations may be linked to Theia 208 from Kounkel & Covey (2019) and together form parts of a large tidal tail around the Platais 8 open cluster. The AB Doradus moving group and Theia 301 may form a trailing tidal tail behind the Pleiades open cluster, with hints of a possible leading tidal tail in Theia 369. We similarly find that IC 2391 and its tidal tails identified by Meingast et al. (2021) may be extended by the nearby Argus association and are possibly further extended by Theia 115. The nearby Octans and Octans-Near associations, as well as Theia 94 and 95, may form a large tidal tail leading the poorly studied Platais 5 open cluster candidate. While a preliminary analysis of Gaia color-magnitude sequences hint that these structures are plausibly related, more observational evidence is still required to corroborate their consistent ages and space velocities. These observations may change our current understanding of nearby moving groups and the different pathways through which they can form. While some moving groups may have formed loosely in extended star-formation events with rich spatial structure, others may in fact correspond to the tidal tails of nearby open clusters.