UNTANGLING MAGELLANIC STREAMS

Dennis Zaritsky; Vedant Chandra; Charlie Conroy; Ana Bonaca; Phillip A. Cargile; Rohan P. Naidu

doi:10.33232/001c.129885

UNTANGLING MAGELLANIC STREAMS

Dennis Zaritsky, Vedant Chandra, Charlie Conroy, Ana Bonaca, Phillip A. Cargile, Rohan P. Naidu

Astronomy

Research output: Contribution to journal › Article › peer-review

Abstract

The Magellanic Stream (MS) has long been known to contain multiple H I strands and corresponding stellar populations are beginning to be discovered. Combining a sample of 17 stars from the H3 (“Hectochelle in the Halo at High Resolution”) survey with 891 stars drawn from the Gaia DR3 catalog, we trace stars along a sub-dominant strand of the MS, as defined by gas content, across 30^◦ on the sky. We find that the corresponding dominant strand at the similar position along the MS is devoid of stars with Galactocentric distance ≲ 55 kpc while the subdominant strand shows a close correspondence to such stars. We conclude that (1) these two Stream strands have different origins, (2) they are likely only close in projection, (3) the subdominant strand is tidal in origin, and (4) the subdominant strand is composed of “disk” material, gas and stars, with a chemical composition that marginally favors it coming from the Small Magellanic Cloud.

Original language	English (US)
Journal	Open Journal of Astrophysics
Volume	8
DOIs	https://doi.org/10.33232/001c.129885
State	Published - 2025

Keywords

Magellanic Clouds (990)
Magellanic Stream (991)
Milky Way stellar halo (1060)

ASJC Scopus subject areas

Astronomy and Astrophysics

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10.33232/001c.129885

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@article{b5a662a176fd43b4a44703c365ebe228,

title = "UNTANGLING MAGELLANIC STREAMS",

abstract = "The Magellanic Stream (MS) has long been known to contain multiple H I strands and corresponding stellar populations are beginning to be discovered. Combining a sample of 17 stars from the H3 (“Hectochelle in the Halo at High Resolution”) survey with 891 stars drawn from the Gaia DR3 catalog, we trace stars along a sub-dominant strand of the MS, as defined by gas content, across 30◦ on the sky. We find that the corresponding dominant strand at the similar position along the MS is devoid of stars with Galactocentric distance ≲ 55 kpc while the subdominant strand shows a close correspondence to such stars. We conclude that (1) these two Stream strands have different origins, (2) they are likely only close in projection, (3) the subdominant strand is tidal in origin, and (4) the subdominant strand is composed of “disk” material, gas and stars, with a chemical composition that marginally favors it coming from the Small Magellanic Cloud.",

keywords = "Magellanic Clouds (990), Magellanic Stream (991), Milky Way stellar halo (1060)",

author = "Dennis Zaritsky and Vedant Chandra and Charlie Conroy and Ana Bonaca and Cargile, {Phillip A.} and Naidu, {Rohan P.}",

year = "2025",

doi = "10.33232/001c.129885",

language = "English (US)",

volume = "8",

journal = "Open Journal of Astrophysics",

issn = "2565-6120",

publisher = "National University of Ireland Maynooth",

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TY - JOUR

T1 - UNTANGLING MAGELLANIC STREAMS

AU - Zaritsky, Dennis

AU - Chandra, Vedant

AU - Conroy, Charlie

AU - Bonaca, Ana

AU - Cargile, Phillip A.

AU - Naidu, Rohan P.

PY - 2025

Y1 - 2025

N2 - The Magellanic Stream (MS) has long been known to contain multiple H I strands and corresponding stellar populations are beginning to be discovered. Combining a sample of 17 stars from the H3 (“Hectochelle in the Halo at High Resolution”) survey with 891 stars drawn from the Gaia DR3 catalog, we trace stars along a sub-dominant strand of the MS, as defined by gas content, across 30◦ on the sky. We find that the corresponding dominant strand at the similar position along the MS is devoid of stars with Galactocentric distance ≲ 55 kpc while the subdominant strand shows a close correspondence to such stars. We conclude that (1) these two Stream strands have different origins, (2) they are likely only close in projection, (3) the subdominant strand is tidal in origin, and (4) the subdominant strand is composed of “disk” material, gas and stars, with a chemical composition that marginally favors it coming from the Small Magellanic Cloud.

AB - The Magellanic Stream (MS) has long been known to contain multiple H I strands and corresponding stellar populations are beginning to be discovered. Combining a sample of 17 stars from the H3 (“Hectochelle in the Halo at High Resolution”) survey with 891 stars drawn from the Gaia DR3 catalog, we trace stars along a sub-dominant strand of the MS, as defined by gas content, across 30◦ on the sky. We find that the corresponding dominant strand at the similar position along the MS is devoid of stars with Galactocentric distance ≲ 55 kpc while the subdominant strand shows a close correspondence to such stars. We conclude that (1) these two Stream strands have different origins, (2) they are likely only close in projection, (3) the subdominant strand is tidal in origin, and (4) the subdominant strand is composed of “disk” material, gas and stars, with a chemical composition that marginally favors it coming from the Small Magellanic Cloud.

KW - Magellanic Clouds (990)

KW - Magellanic Stream (991)

KW - Milky Way stellar halo (1060)

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DO - 10.33232/001c.129885

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AN - SCOPUS:105000239632

SN - 2565-6120

VL - 8

JO - Open Journal of Astrophysics

JF - Open Journal of Astrophysics

ER -

UNTANGLING MAGELLANIC STREAMS

Abstract

Keywords

ASJC Scopus subject areas

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