First detection of the J−1 → (J− 1)0 − E methanol maser transitions at J = 7 and 10

Astronomy & Astrophysics Pub Date : 2024-07-05 DOI:10.1051/0004-6361/202451008

P. Humire, G. Ortiz-Léon, A. Hernández-Gómez, Wenjin Yang, Christian Henkel, Sergio Martín

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Abstract

Class\,I methanol masers provide sensitive information about the shocked environment around star-forming regions. Among the brightest Class I methanol masers, we have those in the -E$ line series, currently reported for the $J=4-9$ transitions, with the only exception being the $J=7$ one at 181.295 GHz, and never expanded to higher $J$ transitions. We aim to search for population inversion in the $7_ -E$ and $10_ -E$ methanol transition lines at 181.295 and 326.961\,GHz, respectively, and also extend the number of known low-mass star-forming sources harboring Class\,I methanol masers. We employed the Atacama Pathfinder Experiment (APEX) 12\,m telescope to survey low-mass Galactic sources, focusing on methanol emission lines. We built rotation diagrams for all sources with detected $J=7$ methanol line transitions, while employing radiative transfer modeling (both in and out of local thermodynamic equilibrium) to characterize methanol excitation conditions in detail for one specific source with detected masers. We detected the $7_ -E$ and $10_ -E$ methanol transitions in 6 out of 19 sources. Among them, we firmly determined the $10_ -E$ maser nature in CARMA\,7, L1641N, NGC\,2024, and Serpens FIRS, and we show evidence for the presence of inverted population emission in the -E$ line toward CARMA\,7 and L1641N. This represents the first report of methanol maser emission in these particular transitions. Our study supports previous works indicating that conditions for Class\,I methanol maser emission are satisfied in low-mass star-forming regions and expands the range of detectable frequencies toward higher values.

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在 J = 7 和 10 处首次探测到 J-1 → (J- 1)0 - E 甲醇瞬变

I 类甲醇烛光提供了恒星形成区周围休克环境的敏感信息。在最亮的 I 类甲醇气溶胶器中，我们有-E$线系列中的那些，目前报道的是$J=4-9$的转变，唯一的例外是在 181.295 GHz 的$J=7$，而且从未扩展到更高的$J$转变。我们的目的是在分别位于181.295和326.961\,GHz的$7_ -E$和$10_ -E$甲醇转变线中寻找种群反转，同时扩大已知低质量恒星形成源中蕴藏Class\,I甲醇分子的数量。我们利用阿塔卡马探路者实验（APEX）12米望远镜勘测低质量银河源，重点研究甲醇发射线。我们为所有检测到$J=7$甲醇线跃迁的光源绘制了旋转图，同时采用辐射传递建模（在局部热力学平衡和非局部热力学平衡两种情况下）详细描述了一个特定光源的甲醇激发条件。在 19 个光源中，我们在 6 个光源中探测到了 $7_ -E$ 和 $10_ -E$ 甲醇跃迁。其中，我们确定了CARMA\,7、L1641N、NGC\,2024和Serpens FIRS中10_ -E$的maser性质，并显示了CARMA\,7和L1641N的-E$线存在反向群体发射的证据。这是首次报道在这些特定转变中存在甲醇maser发射。我们的研究支持了以前的工作，即在低质量恒星形成区满足了Class,I甲醇maser发射的条件，并将可探测到的频率范围扩大到了更高的数值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Astronomy & Astrophysics

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