The Detection of Higher-order Millimeter Hydrogen Recombination Lines in the Large Magellanic Cloud

We report the first extragalactic detection of the higher-order millimeter hydrogen recombination lines (Δ n > 2). The γ -, ϵ -, and η -transitions have been detected toward the millimeter continuum source N 105–1 A in the star-forming region N 105 in the Large Magellanic Cloud with the Atacama L...

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Veröffentlicht in:	The Astrophysical journal 2023-12, Vol.959 (1), p.22
Hauptverfasser:	Sewiło, Marta, Tokuda, Kazuki, Kurtz, Stan E., Charnley, Steven B., Möller, Thomas, Wiseman, Jennifer, Chen, C.-H. Rosie, Indebetouw, Remy, Sánchez-Monge, Álvaro, Tanaka, Kei E. I., Schilke, Peter, Onishi, Toshikazu, Harada, Naoto
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Schlagworte:	Astrochemistry Astrophysics Continuum radiation Deposition Electron density Electron energy Electrons Emission measurements Filaments Galaxies H II regions Hydrogen Hydrogen recombinations Kinematics Magellanic Clouds Molecular clouds Physical properties Radio telescopes Star & galaxy formation Star formation Star forming regions Stars Streamer formation Sulfur Sulfur dioxide
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creator	Sewiło, Marta Tokuda, Kazuki Kurtz, Stan E. Charnley, Steven B. Möller, Thomas Wiseman, Jennifer Chen, C.-H. Rosie Indebetouw, Remy Sánchez-Monge, Álvaro Tanaka, Kei E. I. Schilke, Peter Onishi, Toshikazu Harada, Naoto
description	We report the first extragalactic detection of the higher-order millimeter hydrogen recombination lines (Δ n > 2). The γ -, ϵ -, and η -transitions have been detected toward the millimeter continuum source N 105–1 A in the star-forming region N 105 in the Large Magellanic Cloud with the Atacama Large Millimeter/submillimeter Array. We use the H40 α line, the brightest of the detected recombination lines (H40 α , H36 β , H50 β , H41 γ , H57 γ , H49 ϵ , H53 η , and H54 η ), to determine the electron temperature and study ionized gas kinematics in the region, and the 3 mm free–free continuum emission to determine the physical parameters: the size, emission measure, and electron density. We compare the physical properties of N 105–1 A to a large sample of Galactic compact and ultracompact (UC) H ii regions and conclude that N 105–1 A is similar to the most luminous ( L > 10 5 L ⊙ ) UC H ii regions in the Galaxy. N 105–1 A is ionized by an O5.5 V star; it is deeply embedded in its natal molecular clump, and likely associated with a (proto)cluster. We incorporate high-resolution molecular line data including CS, SO, SO 2 , and CH 3 OH (∼0.12 pc), and HCO + and CO (∼0.087 pc) to explore the molecular environment of N 105–1 A. Based on the CO data, we find evidence for a cloud–cloud collision that likely triggered star formation in the region. We find no clear outflow signatures, but the presence of filaments and streamers indicates ongoing accretion onto the clump hosting the UC H ii region. Sulfur chemistry in N 105–1 A is consistent with the accretion shock model predictions.
doi_str_mv	10.3847/1538-4357/acf5ed
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Based on the CO data, we find evidence for a cloud–cloud collision that likely triggered star formation in the region. We find no clear outflow signatures, but the presence of filaments and streamers indicates ongoing accretion onto the clump hosting the UC H ii region. 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subjects	Astrochemistry Astrophysics Continuum radiation Deposition Electron density Electron energy Electrons Emission measurements Filaments Galaxies H II regions Hydrogen Hydrogen recombinations Kinematics Magellanic Clouds Molecular clouds Physical properties Radio telescopes Star & galaxy formation Star formation Star forming regions Stars Streamer formation Sulfur Sulfur dioxide
title	The Detection of Higher-order Millimeter Hydrogen Recombination Lines in the Large Magellanic Cloud
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