Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region

Aims. We aim to study the molecular and the ionized gas in a possible precursor of an ultra-compact H ii region to contribute to the understanding of how high-mass stars build-up their masses once they have reached the zero-age main sequence. Methods. We carried out molecular observations toward the...

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Detalles Bibliográficos
Publicado: 2017
Materias:
ISM: clouds
Stars: formation
Stars: winds, outflows
Gases
Giant stars
Infrared devices
Ionization
Ionizing radiation
Molecular mass
Morphology
Near infrared spectroscopy
Radio receivers
Stars
Angular resolution
Evolutionary stage
ISM : clouds
Kinetic temperatures
Molecular outflows
Near infrared spectra
Stars: winds , outflows
Ionization of gases
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00046361_v606_n_p_Ortega
http://hdl.handle.net/20.500.12110/paper_00046361_v606_n_p_Ortega
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_00046361_v606_n_p_Ortega
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spelling paper:paper_00046361_v606_n_p_Ortega2023-06-08T14:28:22Z Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region ISM: clouds Stars: formation Stars: winds, outflows Gases Giant stars Infrared devices Ionization Ionizing radiation Molecular mass Morphology Near infrared spectroscopy Radio receivers Stars Angular resolution Evolutionary stage ISM : clouds Kinetic temperatures Molecular outflows Near infrared spectra Stars: formation Stars: winds , outflows Ionization of gases Aims. We aim to study the molecular and the ionized gas in a possible precursor of an ultra-compact H ii region to contribute to the understanding of how high-mass stars build-up their masses once they have reached the zero-age main sequence. Methods. We carried out molecular observations toward the position of the Red MSX source G052.9221-00.4892, using the Atacama Submillimeter Telescope Experiment (ASTE; Chile) in the 12CO J = 3-2, 13CO J = 3-2, C18O J = 3-2, and HCO+J = 4-3 lines with an angular resolution of about 22″. We also present radio continuum observations at 6 GHz carried out with the Jansky Very Large Array (JVLA; USA) interferometer with a synthesized beam of 4″.8 × 4″.1. The molecular data were used to study the distribution and kinematics of the molecular gas, while the radio continuum data were used to characterize the ionized gas in the region. Combining these observations with public infrared data allowed us to inquire about the nature of the source. Results. The analysis of the molecular observations reveals the presence of a kinetic temperature and H2 column density gradients across the molecular clump in which the Red MSX source G052.9221-00.4892 is embedded, with the hotter and less dense gas in the inner region. The 12CO J = 3-2 emission shows evidence of misaligned massive molecular outflows, with the blue lobe in positional coincidence with a jet-like feature seen at 8 μm. The radio continuum emission shows a slightly elongated compact radio source, with a flux density of about 0.9 mJy, in positional coincidence with the Red MSX source. The polar-like morphology of this compact radio source perfectly matches the hourglass-like morphology exhibited by the source in the Ks band. Moreover, the axes of symmetry of the radio source and the near-infrared nebula are perfectly aligned. Thus, based on the presence of molecular outflows, the slightly elongated morphology of the compact radio source matching the hourglass-like morphology of the source at the Ks band, and the lack of evidence of collimated jets in the near-infrared spectrum, one interpretation for the nature of the source, is that the Red MSX source G052.9221-00.4892 could be transiting a hyper-compact H ii region phase, in which the young central star emits winds and ionizing radiation through the poles. On the other hand, according to a comparison between the Brγ intensity and the radio flux density at 6 GHz, the source would be in a more evolved evolutionary stage of an optically thin UC H ii region in photoionization equilibrium. If this is the case, from the radio continuum emission, we can conjecture upon the spectral type of its exciting star which would be a B0.5V. © ESO, 2017. 2017 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00046361_v606_n_p_Ortega http://hdl.handle.net/20.500.12110/paper_00046361_v606_n_p_Ortega
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic ISM: clouds
Stars: formation
Stars: winds, outflows
Gases
Giant stars
Infrared devices
Ionization
Ionizing radiation
Molecular mass
Morphology
Near infrared spectroscopy
Radio receivers
Stars
Angular resolution
Evolutionary stage
ISM : clouds
Kinetic temperatures
Molecular outflows
Near infrared spectra
Stars: formation
Stars: winds , outflows
Ionization of gases
spellingShingle ISM: clouds
Stars: formation
Stars: winds, outflows
Gases
Giant stars
Infrared devices
Ionization
Ionizing radiation
Molecular mass
Morphology
Near infrared spectroscopy
Radio receivers
Stars
Angular resolution
Evolutionary stage
ISM : clouds
Kinetic temperatures
Molecular outflows
Near infrared spectra
Stars: formation
Stars: winds , outflows
Ionization of gases
Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region
topic_facet ISM: clouds
Stars: formation
Stars: winds, outflows
Gases
Giant stars
Infrared devices
Ionization
Ionizing radiation
Molecular mass
Morphology
Near infrared spectroscopy
Radio receivers
Stars
Angular resolution
Evolutionary stage
ISM : clouds
Kinetic temperatures
Molecular outflows
Near infrared spectra
Stars: formation
Stars: winds , outflows
Ionization of gases
description Aims. We aim to study the molecular and the ionized gas in a possible precursor of an ultra-compact H ii region to contribute to the understanding of how high-mass stars build-up their masses once they have reached the zero-age main sequence. Methods. We carried out molecular observations toward the position of the Red MSX source G052.9221-00.4892, using the Atacama Submillimeter Telescope Experiment (ASTE; Chile) in the 12CO J = 3-2, 13CO J = 3-2, C18O J = 3-2, and HCO+J = 4-3 lines with an angular resolution of about 22″. We also present radio continuum observations at 6 GHz carried out with the Jansky Very Large Array (JVLA; USA) interferometer with a synthesized beam of 4″.8 × 4″.1. The molecular data were used to study the distribution and kinematics of the molecular gas, while the radio continuum data were used to characterize the ionized gas in the region. Combining these observations with public infrared data allowed us to inquire about the nature of the source. Results. The analysis of the molecular observations reveals the presence of a kinetic temperature and H2 column density gradients across the molecular clump in which the Red MSX source G052.9221-00.4892 is embedded, with the hotter and less dense gas in the inner region. The 12CO J = 3-2 emission shows evidence of misaligned massive molecular outflows, with the blue lobe in positional coincidence with a jet-like feature seen at 8 μm. The radio continuum emission shows a slightly elongated compact radio source, with a flux density of about 0.9 mJy, in positional coincidence with the Red MSX source. The polar-like morphology of this compact radio source perfectly matches the hourglass-like morphology exhibited by the source in the Ks band. Moreover, the axes of symmetry of the radio source and the near-infrared nebula are perfectly aligned. Thus, based on the presence of molecular outflows, the slightly elongated morphology of the compact radio source matching the hourglass-like morphology of the source at the Ks band, and the lack of evidence of collimated jets in the near-infrared spectrum, one interpretation for the nature of the source, is that the Red MSX source G052.9221-00.4892 could be transiting a hyper-compact H ii region phase, in which the young central star emits winds and ionizing radiation through the poles. On the other hand, according to a comparison between the Brγ intensity and the radio flux density at 6 GHz, the source would be in a more evolved evolutionary stage of an optically thin UC H ii region in photoionization equilibrium. If this is the case, from the radio continuum emission, we can conjecture upon the spectral type of its exciting star which would be a B0.5V. © ESO, 2017.
title Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region
title_short Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region
title_full Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region
title_fullStr Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region
title_full_unstemmed Study of the molecular and ionized gas in a possible precursor of an ultra-compact H II region
title_sort study of the molecular and ionized gas in a possible precursor of an ultra-compact h ii region
publishDate 2017
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00046361_v606_n_p_Ortega
http://hdl.handle.net/20.500.12110/paper_00046361_v606_n_p_Ortega
_version_ 1768546048208273408

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