(\alpha\)-enhanced Astrochemistry: the Carbon cycle in extreme galactic conditions

Astrochemistry has been widely developed as a power tool to probe physical properties of the interstellar medium (ISM) in various conditions of the Milky Way (MW) Galaxy, and in near and distant galaxies. Most current studies conventionally apply linear scaling to all elemental abundances based on t...

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Published in	arXiv.org
Main Authors	Bisbas, Thomas G, Zhi-Yu, Zhang, Gjergo, Eda, Ying-He, Zhao, Luo, Gan, Quan, Donghui, Xue-Jian, Jiang, Sun, Yichen, Topkaras, Theodoros, Li, Di, Guo, Ziyi
Format	Paper
Language	English
Published	Ithaca Cornell University Library, arXiv.org 06.12.2023
Subjects	Abundance Astrochemistry Carbon Carbon cycle Chemical evolution Cosmic dust Cosmic rays Emission Galactic evolution Interstellar matter Metallicity Milky Way Molecular gases Nuclear fusion Oxygen enrichment Physical properties Red shift Star formation Stars & galaxies
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Abstract	Astrochemistry has been widely developed as a power tool to probe physical properties of the interstellar medium (ISM) in various conditions of the Milky Way (MW) Galaxy, and in near and distant galaxies. Most current studies conventionally apply linear scaling to all elemental abundances based on the gas-phase metallicity. However, these elements, including carbon and oxygen, are enriched differentially by stellar nucleosynthesis and the overall galactic chemical evolution, evident from \(\alpha\)-enhancement in multiple galactic observations such as starbursts, high-redshift star-forming galaxies, and low-metallicity dwarfs. We perform astrochemical modeling to simulate the impact of an \(\alpha\)-enhanced ISM gas cloud on the abundances of the three phases of carbon (C\(^+\), C, CO) dubbed as `the carbon cycle'. The ISM environmental parameters considered include two cosmic-ray ionization rates (\(\zeta_{\rm CR}=10^{-17}\) and \(10^{-15}\,{\rm s}^{-1}\)), two isotropic FUV radiation field strengths (\(\chi/\chi_0=1\) and \(10^2\)), and (sub-)linear dust-to-gas relations against metallicity, mimicking the ISM conditions of different galaxy types. In galaxies with [C/O] \(<\) 0, CO, C and C\(^+\) all decrease in both abundances and emission, though with differential biases. The low-\(J\) CO emission is found to be the most stable tracer for the molecular gas, while C and C\(^+\) trace H\(_2\) gas only under limited conditions, in line with recent discoveries of [CI]-dark galaxies. We call for caution when using [CII]~\(158\mu\)m and [CI](1-0) as alternative H\(_2\)-gas tracers for both diffuse and dense gas with non-zero [C/O] ratios.
AbstractList	Astrochemistry has been widely developed as a power tool to probe physical properties of the interstellar medium (ISM) in various conditions of the Milky Way (MW) Galaxy, and in near and distant galaxies. Most current studies conventionally apply linear scaling to all elemental abundances based on the gas-phase metallicity. However, these elements, including carbon and oxygen, are enriched differentially by stellar nucleosynthesis and the overall galactic chemical evolution, evident from \(\alpha\)-enhancement in multiple galactic observations such as starbursts, high-redshift star-forming galaxies, and low-metallicity dwarfs. We perform astrochemical modeling to simulate the impact of an \(\alpha\)-enhanced ISM gas cloud on the abundances of the three phases of carbon (C\(^+\), C, CO) dubbed as `the carbon cycle'. The ISM environmental parameters considered include two cosmic-ray ionization rates (\(\zeta_{\rm CR}=10^{-17}\) and \(10^{-15}\,{\rm s}^{-1}\)), two isotropic FUV radiation field strengths (\(\chi/\chi_0=1\) and \(10^2\)), and (sub-)linear dust-to-gas relations against metallicity, mimicking the ISM conditions of different galaxy types. In galaxies with [C/O] \(<\) 0, CO, C and C\(^+\) all decrease in both abundances and emission, though with differential biases. The low-\(J\) CO emission is found to be the most stable tracer for the molecular gas, while C and C\(^+\) trace H\(_2\) gas only under limited conditions, in line with recent discoveries of [CI]-dark galaxies. We call for caution when using [CII]~\(158\mu\)m and [CI](1-0) as alternative H\(_2\)-gas tracers for both diffuse and dense gas with non-zero [C/O] ratios.
Author	Sun, Yichen Zhi-Yu, Zhang Luo, Gan Gjergo, Eda Xue-Jian, Jiang Quan, Donghui Bisbas, Thomas G Li, Di Topkaras, Theodoros Ying-He, Zhao Guo, Ziyi
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SubjectTerms	Abundance Astrochemistry Carbon Carbon cycle Chemical evolution Cosmic dust Cosmic rays Emission Galactic evolution Interstellar matter Metallicity Milky Way Molecular gases Nuclear fusion Oxygen enrichment Physical properties Red shift Star formation Stars & galaxies
Title	(\alpha\)-enhanced Astrochemistry: the Carbon cycle in extreme galactic conditions
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