Discovery of the Magellanic Stellar Stream Out to 100 Kiloparsecs

TL;DR

This paper reports the discovery of a stellar counterpart to the Magellanic Stream, revealing its distance, kinematics, and chemical properties, which are crucial for understanding the Clouds' interaction history.

Contribution

The study identifies a stellar population associated with the Magellanic Stream, providing the first detailed kinematic and chemical characterization of its stellar component.

Findings

Discovered 13 stars matching the Magellanic Clouds' angular momentum.

Stars span up to 100° along the stream at 60-120 kpc.

Stars show chemical signatures consistent with formation in the Clouds.

Abstract

The Magellanic Stream (MS) - an enormous ribbon of gas spanning $140^\circ$ of the southern sky trailing the Magellanic Clouds - has been exquisitely mapped in the five decades since its discovery. However, despite concerted efforts, no stellar counterpart to the MS has been conclusively identified. This stellar stream would reveal the distance and 6D kinematics of the MS, constraining its formation and the past orbital history of the Clouds. We have been conducting a spectroscopic survey of the most distant and luminous red giant stars in the Galactic outskirts. From this dataset, we have discovered a prominent population of 13 stars matching the extreme angular momentum of the Clouds, spanning up to $100^\circ$ along the MS at distances of $60-120$ kpc. Furthermore, these kinemetically-selected stars lie along a [$\alpha$/Fe]-deficient track in chemical space from $-2.5 < \mathrm{[Fe/H]} < -0.5$, consistent with their formation in the Clouds themselves. We identify these stars as high-confidence members of the Magellanic Stellar Stream. Half of these stars are metal-rich and closely follow the gaseous MS, whereas the other half are more scattered and metal-poor. We argue that the metal-rich stream is the recently-formed tidal counterpart to the MS, and speculate that the metal-poor population was thrown out of the SMC outskirts during an earlier interaction between the Clouds. The Magellanic Stellar Stream provides a strong set of constraints - distances, 6D kinematics, and birth locations - that will guide future simulations towards unveiling the detailed history of the Clouds.