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Main Authors: Wu, Gang, Henkel, Christian, Zhou, Dongdong, Wyrowski, Friedrich, Menten, Karl M., Esimbek, Jarken
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.12233
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author Wu, Gang
Henkel, Christian
Zhou, Dongdong
Wyrowski, Friedrich
Menten, Karl M.
Esimbek, Jarken
author_facet Wu, Gang
Henkel, Christian
Zhou, Dongdong
Wyrowski, Friedrich
Menten, Karl M.
Esimbek, Jarken
contents Identifying infall motions is crucial for our understanding of accretion processes in regions of star formation. The NH3 (1,1) hyperfine intensity anomaly (HIA) has been proposed to be a readily usable tracer for such infall motions in star-forming regions harboring young stellar objects at very early evolutionary stages. In this paper, we seek to study the HIA toward fifteen infall candidate regions to assess its reliability as an infall tracer. By using deep observations of the NH3 (1,1) transition with the Effelsberg 100 m telescope, HIAs have been identified toward all the targets. Fourteen out of fifteen sources exhibit anomalous intensities either in the inner or outer satellite lines. All the derived HIAs conform to the framework of the existing two models, namely, hyperfine selective trapping (HST) and systematic contraction or expansion motion (CE) models. In our sample of infall candidates, a majority of the HIAs remain consistent with the HST model. Only in three targets, the HIAs are consistent with infall motions under the CE model. Thus HIAs could be used as an infall tracer but seem not highly sensitive to infall motions in our single-dish data. Nevertheless, the emission could be blended with emission from outflow activities. HIAs consistent with the HST model show stronger anomalies with increasing kinetic temperatures (Tk), which is expected by the HST model. On the other hand, HIAs consistent with infall motions show little dependence on Tk. Therefore, HIAs may preferably trace infall of cold gas.
format Preprint
id arxiv_https___arxiv_org_abs_2409_12233
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle NH3 (1,1) hyperfine intensity anomalies in infall sources
Wu, Gang
Henkel, Christian
Zhou, Dongdong
Wyrowski, Friedrich
Menten, Karl M.
Esimbek, Jarken
Astrophysics of Galaxies
Identifying infall motions is crucial for our understanding of accretion processes in regions of star formation. The NH3 (1,1) hyperfine intensity anomaly (HIA) has been proposed to be a readily usable tracer for such infall motions in star-forming regions harboring young stellar objects at very early evolutionary stages. In this paper, we seek to study the HIA toward fifteen infall candidate regions to assess its reliability as an infall tracer. By using deep observations of the NH3 (1,1) transition with the Effelsberg 100 m telescope, HIAs have been identified toward all the targets. Fourteen out of fifteen sources exhibit anomalous intensities either in the inner or outer satellite lines. All the derived HIAs conform to the framework of the existing two models, namely, hyperfine selective trapping (HST) and systematic contraction or expansion motion (CE) models. In our sample of infall candidates, a majority of the HIAs remain consistent with the HST model. Only in three targets, the HIAs are consistent with infall motions under the CE model. Thus HIAs could be used as an infall tracer but seem not highly sensitive to infall motions in our single-dish data. Nevertheless, the emission could be blended with emission from outflow activities. HIAs consistent with the HST model show stronger anomalies with increasing kinetic temperatures (Tk), which is expected by the HST model. On the other hand, HIAs consistent with infall motions show little dependence on Tk. Therefore, HIAs may preferably trace infall of cold gas.
title NH3 (1,1) hyperfine intensity anomalies in infall sources
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2409.12233