Erosion of a dense molecular core by a strong outflow from a massive protostar

IF 5.8 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astronomy & Astrophysics Pub Date : 2025-03-21 DOI:10.1051/0004-6361/202453196

J. A. López-Vázquez, M. Fernández-López, J. M. Girart, S. Curiel, R. Estalella, G. Busquet, L. A. Zapata, C.-F. Lee, R. Galván-Madrid

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Abstract

Context. Molecular outflows from massive protostars can impact the interstellar medium in different ways, adding turbulence on different spatial scales, dragging material at supersonic velocities, producing shocks and heating, and physically impinging onto dense structures that may be harboring other protostars.Aims. We aim to quantify the impact of the outflow associated with the high-mass protostar GGD 27-MM2(E) on its parent envelope and how this outflow affects its environment.Methods. We present Atacama Large Millimeter/submillimeter Array Band 3 observations of N_{2_{H^{+^{(1–0) and CH_{3_{CN (5–4), as well as Band 7 observations of the H_{2_{CO molecular line emissions from the protostellar system GGD 27-MM2(E). Through position–velocity diagrams along and across the outflow axis, we studied the kinematics and structure of the outflow. We also fit extracted spectra of the CH_{3_{CN emission to obtain the physical conditions of the gas. We use the results to discuss the impact of the outflow on its surroundings.Results. We find that N_{2_{H^{+^{emission traces a dense molecular cloud surrounding GGD 27-MM2(E). We estimate that the mass of this cloud is ~13.3–26.5 M_{⊙_{. The molecular cloud contains an internal cavity aligned with the H_{2_{CO-traced molecular outflow. The outflow, also traced by CH_{3_{CN, shows evidence of a collision with a molecular core (MC), as indicated by the distinctive increases in the distinct physical properties of the gas such as the excitation temperature, column density, line width, and velocity. This collision results in an X-shaped structure in the northern part of the outflow around the position of the MC, which produces spray-shocked material downstream in the north of MC, as observed in position–velocity diagrams both along and across the outflow axis. The outflow has a mass of 1.7–2.1 M_{⊙_{, a momentum of 7.8–10.1 M_{⊙_{km s^{−1^{, a kinetic energy of 5.0–6.6×10^{44^{erg, and a mass-loss rate of 4.9–6.0×10^{−4^{M_{⊙_{yr^{−1^{.Conclusions. The molecular outflow from GGD 27-MM2(E) significantly perturbs and erodes its parent cloud, compressing the gas of sources such as the MC and ALMA 12. The feedback from this powerful protostellar outflow helps maintain the turbulence in the surrounding area.}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}

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由大质量原恒星的强烈流出物对致密分子核的侵蚀

上下文。来自大质量原恒星的分子外流可以以不同的方式影响星际介质，在不同的空间尺度上增加湍流，以超音速拖动物质，产生冲击和加热，并对可能容纳其他原恒星的致密结构产生物理冲击。我们的目标是量化与高质量原恒星GGD 27-MM2(E)相关的流出物对其母包膜的影响，以及这种流出物如何影响其环境。我们介绍了阿塔卡马大型毫米/亚毫米阵列对N2H+(1-0)和CH3CN（5-4）的波段3观测，以及对原恒星系统GGD 27-MM2(E)的H2CO分子线发射的波段7观测。通过沿出流轴和沿出流轴的位置-速度图，我们研究了出流轴的运动学和结构。我们还拟合了提取的CH3CN发射光谱，得到了气体的物理条件。我们用这些结果来讨论流出物对其周围环境的影响。我们发现在GGD 27-MM2(E)周围有一个致密的分子云。我们估计这团云的质量为~ 13.3-26.5 M⊙。分子云包含一个内部空腔，与h2co追踪的分子流出物对齐。同样由CH3CN追踪到的流出物显示了与分子核（MC）碰撞的证据，这可以从气体的不同物理性质（如激发温度、柱密度、线宽和速度）的显著增加中看出。这种碰撞在流出流的北部形成了一个围绕MC位置的x形结构，在MC的北部下游产生了喷雾冲击物质，正如在流出轴的位置-速度图中所观察到的那样。流出液质量为1.7-2.1 M⊙，动量为7.8-10.1 M⊙km s−1，动能为5.0-6.6×1044 erg，质量损失率为4.9-6.0×10−4 M⊙yr−1。来自GGD 27-MM2(E)的分子外流显著地扰动和侵蚀了它的母云，压缩了MC和ALMA 12等气源的气体。这种强大的原恒星流出流的反馈有助于维持周围区域的湍流。

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Astronomy & Astrophysics 地学天文-天文与天体物理

CiteScore
10.20

自引率
27.70%

发文量
2105

审稿时长
1-2 weeks

期刊介绍： Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.

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