Magnetic Fields in Massive Star-forming Regions (MagMaR). IV. Tracing the Magnetic Fields in the O-type Protostellar System IRAS 16547–4247

The Astrophysical Journal Pub Date : 2024-10-15 DOI:10.3847/1538-4357/ad701d

Luis A. Zapata, Manuel Fernández-López, Patricio Sanhueza, Josep M. Girart, Luis F. Rodríguez, Paulo Cortés, Patrick Koch, Maria T. Beltrán, Kate Pattle, Henrik Beuther, Piyali Saha, Wenyu Jiao, Fengwei Xu, Xing Walker Lu, Fernando Olguin, Shanghuo Li, Ian W. Stephens, Ji-hyun Kang, Yu Cheng, Spandan Choudhury, Kaho Morii, Eun Jung Chung, Jia-Wei Wang, Jihye Hwang, A-Ran Lyo, Q. Zhang and Huei-Ru Vivien Chen

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Abstract

The formation of the massive stars, and in particular, the role that the magnetic fields play in their early evolutionary phase is still far from being completely understood. Here, we present the Atacama Large Millimeter/submillimeter Array 1.2 mm full polarized continuum and H13CO+(3−2), CS(5−4), and HN13C(3−2) line observations with a high angular resolution (∼0.″4 or 1100 au). In the 1.2 mm continuum emission, we reveal a dusty envelope surrounding the massive protostars, IRAS16547-E and IRAS16547-W, with dimensions of ∼10,000 au. This envelope has a biconical structure likely carved by the powerful thermal radio jet present in region. The magnetic field vectors follow very well the biconical envelope. The polarization fraction is ∼2.0% in this region. Some of these vectors seem to converge to IRAS 16547-E and IRAS 16547-W, the most massive protostars. Moreover, the velocity fields revealed from the spectral lines H13CO+(3−2) and HN13C(3−2) show velocity gradients with a good correspondence with the magnetic fields, which maybe are tracing the cavities of molecular outflows or maybe infalling in some parts. We derived a magnetic field strength in some filamentary regions that goes from 2 to 6.1 mG. We also find that the CS(5−4) molecular line emission reveals multiple outflow cavities or bow shocks with different orientations, some of which seem to follow the NW–SE radio thermal jet.

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大质量恒星形成区的磁场（MagMaR）。IV.追踪 O 型原恒星系统 IRAS 16547-4247 中的磁场

人们对大质量恒星的形成，特别是磁场在其早期演化阶段所起的作用还远未完全了解。在这里，我们展示了阿塔卡马大毫米波/亚毫米波阵列 1.2 毫米全偏振连续波和 H13CO+(3-2)、CS(5-4)和 HN13C(3-2) 线的高角度分辨率（∼0.″4 或 1100 au）观测结果。在 1.2 mm 的连续辐射中，我们发现大质量原恒星 IRAS16547-E 和 IRAS16547-W 的周围有一个尘埃包层，其大小为 ∼ 10,000 au。这个包层具有双锥形结构，很可能是由该区域存在的强大热射电射流雕刻而成的。磁场矢量与双锥包络非常吻合。该区域的极化率为 2.0%。其中一些磁场矢量似乎汇聚到了IRAS 16547-E和IRAS 16547-W这两颗质量最大的原恒星。此外，光谱线H13CO+(3-2)和HN13C(3-2)显示的速度场梯度与磁场有很好的对应关系，这可能是分子外流空腔的轨迹，也可能是某些部分的内陷。我们得出了一些丝状区域的磁场强度，从 2mG 到 6.1mG。我们还发现，CS(5-4)分子线发射显示了多个不同方向的外流空腔或弓形冲击，其中一些似乎沿着西北-东南射电热喷流。

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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The Astrophysical Journal

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