Stellar Populations and Molecular Gas Composition in the Low-Metallicity Environment of WLM

Haylee N. Archer; Deidre A. Hunter; Bruce G. Elmegreen; Leslie K. Hunt; Rosalia O'brien; Elias Brinks; Phil Cigan; Monica Rubio; Rogier A. Windhorst; Rolf A. Jansen; Elijah P. Mathews

Stellar Populations and Molecular Gas Composition in the Low-Metallicity Environment of WLM

Haylee N. Archer, Deidre A. Hunter, Bruce G. Elmegreen, Leslie K. Hunt, Rosalia O'brien, Elias Brinks, Phil Cigan, Monica Rubio, Rogier A. Windhorst, Rolf A. Jansen, Elijah P. Mathews

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Abstract

We investigate the stellar populations and molecular gas properties of a star-forming region within the dwarf irregular (dIrr) galaxy WLM. Low-metallicity dIrrs like WLM offer a valuable window into star formation in environments that are unlike those of larger, metal-rich galaxies such as the Milky Way. In these conditions, carbon monoxide (CO), typically used to trace molecular clouds, is more easily photodissociated by ultraviolet (UV) radiation, leading to a larger fraction of CO-dark molecular gas, where H$_2$ exists without detectable CO emission, or CO-dark gas in the form of cold HI. Understanding the molecular gas content and the stellar populations in these star-forming regions provides important information about the role of CO-bright and CO-dark gas in forming stars.

Original language	English
Journal	The Astronomical Journal
Publication status	Accepted/In press - 24 Mar 2025

Keywords

astro-ph.GA

Embargoed Document

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@article{88ca49346b80498ea9fd25bf00e5e59a,

title = "Stellar Populations and Molecular Gas Composition in the Low-Metallicity Environment of WLM",

abstract = " We investigate the stellar populations and molecular gas properties of a star-forming region within the dwarf irregular (dIrr) galaxy WLM. Low-metallicity dIrrs like WLM offer a valuable window into star formation in environments that are unlike those of larger, metal-rich galaxies such as the Milky Way. In these conditions, carbon monoxide (CO), typically used to trace molecular clouds, is more easily photodissociated by ultraviolet (UV) radiation, leading to a larger fraction of CO-dark molecular gas, where H$_2$ exists without detectable CO emission, or CO-dark gas in the form of cold HI. Understanding the molecular gas content and the stellar populations in these star-forming regions provides important information about the role of CO-bright and CO-dark gas in forming stars. ",

keywords = "astro-ph.GA",

author = "Archer, {Haylee N.} and Hunter, {Deidre A.} and Elmegreen, {Bruce G.} and Hunt, {Leslie K.} and Rosalia O'brien and Elias Brinks and Phil Cigan and Monica Rubio and Windhorst, {Rogier A.} and Jansen, {Rolf A.} and Mathews, {Elijah P.}",

note = "In press in the Astronomical Journal",

year = "2025",

month = mar,

day = "24",

language = "English",

journal = "The Astronomical Journal ",

issn = "0004-6256",

publisher = "American Astronomical Society",

}

TY - JOUR

T1 - Stellar Populations and Molecular Gas Composition in the Low-Metallicity Environment of WLM

AU - Archer, Haylee N.

AU - Hunter, Deidre A.

AU - Elmegreen, Bruce G.

AU - Hunt, Leslie K.

AU - O'brien, Rosalia

AU - Brinks, Elias

AU - Cigan, Phil

AU - Rubio, Monica

AU - Windhorst, Rogier A.

AU - Jansen, Rolf A.

AU - Mathews, Elijah P.

N1 - In press in the Astronomical Journal

PY - 2025/3/24

Y1 - 2025/3/24

N2 - We investigate the stellar populations and molecular gas properties of a star-forming region within the dwarf irregular (dIrr) galaxy WLM. Low-metallicity dIrrs like WLM offer a valuable window into star formation in environments that are unlike those of larger, metal-rich galaxies such as the Milky Way. In these conditions, carbon monoxide (CO), typically used to trace molecular clouds, is more easily photodissociated by ultraviolet (UV) radiation, leading to a larger fraction of CO-dark molecular gas, where H$_2$ exists without detectable CO emission, or CO-dark gas in the form of cold HI. Understanding the molecular gas content and the stellar populations in these star-forming regions provides important information about the role of CO-bright and CO-dark gas in forming stars.

AB - We investigate the stellar populations and molecular gas properties of a star-forming region within the dwarf irregular (dIrr) galaxy WLM. Low-metallicity dIrrs like WLM offer a valuable window into star formation in environments that are unlike those of larger, metal-rich galaxies such as the Milky Way. In these conditions, carbon monoxide (CO), typically used to trace molecular clouds, is more easily photodissociated by ultraviolet (UV) radiation, leading to a larger fraction of CO-dark molecular gas, where H$_2$ exists without detectable CO emission, or CO-dark gas in the form of cold HI. Understanding the molecular gas content and the stellar populations in these star-forming regions provides important information about the role of CO-bright and CO-dark gas in forming stars.

KW - astro-ph.GA

M3 - Article

SN - 0004-6256

JO - The Astronomical Journal

JF - The Astronomical Journal

ER -

Stellar Populations and Molecular Gas Composition in the Low-Metallicity Environment of WLM

Abstract

Keywords

Embargoed Document

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