Disruption of a massive molecular cloud by a supernova in the Galactic Centre: Initial results from the ACES project

arXiv - PHYS - Astrophysics of Galaxies Pub Date : 2024-09-18 DOI:arxiv-2409.12185

M. Nonhebel, A. T. Barnes, K. Immer, J. Armijos-Abendaño, J. Bally, C. Battersby, M. G. Burton, N. Butterfield, L. Colzi, P. García, A. Ginsburg, J. D. Henshaw, Y. Hu, I. Jiménez-Serra, R. S. Klessen, F. -H. Liang, S. N. Longmore, X. Lu, S. Martín, F. Nogueras-Lara, M. A. Petkova, J. E. Pineda, V. M. Rivilla, Á. Sánchez-Monge, M. G. Santa-Maria, H. A. Smith, Y. Sofue, M. C. Sormani, V. Tolls, D. L. Walker, Q. D. Wang, G. M. Williams, F. -W. Xu

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Abstract

The Milky Way's Central Molecular Zone (CMZ) differs dramatically from our local solar neighbourhood, both in the extreme interstellar medium conditions it exhibits (e.g. high gas, stellar, and feedback density) and in the strong dynamics at play (e.g. due to shear and gas influx along the bar). Consequently, it is likely that there are large-scale physical structures within the CMZ that cannot form elsewhere in the Milky Way. In this paper, we present new results from the Atacama Large Millimeter/submillimeter Array (ALMA) large programme ACES (ALMA CMZ Exploration Survey) and conduct a multi-wavelength and kinematic analysis to determine the origin of the M0.8$-$0.2 ring, a molecular cloud with a distinct ring-like morphology. We estimate the projected inner and outer radii of the M0.8$-$0.2 ring to be 79" and 154", respectively (3.1 pc and 6.1 pc at an assumed Galactic Centre distance of 8.2 kpc) and calculate a mean gas density $> 10^{4}$ cm$^{-3}$, a mass of $\sim$ $10^6$ M$_\odot$, and an expansion speed of $\sim$ 20 km s$^{-1}$, resulting in a high estimated kinetic energy ($> 10^{51}$ erg) and momentum ($> 10^7$ M$_\odot$ km s$^{-1}$). We discuss several possible causes for the existence and expansion of the structure, including stellar feedback and large-scale dynamics. We propose that the most likely cause of the M0.8$-$0.2 ring is a single high-energy hypernova explosion. To viably explain the observed morphology and kinematics, such an explosion would need to have taken place inside a dense, very massive molecular cloud, the remnants of which we now see as the M0.8$-$0.2 ring. In this case, the structure provides an extreme example of how supernovae can affect molecular clouds.

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银河中心的超新星破坏了大质量分子云：ACES 项目的初步结果

银河系的中央分子区（CMZ）与我们本地的太阳邻近地区有很大的不同，无论是在极端的星际介质条件下（如高气体、恒星和反馈密度），还是在强大的动力学作用下（如由于剪切力和气体沿棒流入），CMZ内都很可能存在着银河系其他地方无法形成的大规模物理结构。在本文中，我们介绍了阿塔卡马大毫米波/亚毫米波阵列（ALMA）大型计划ACES（ALMA CMZ Exploration Survey）的新结果，并进行了多波长和运动学分析，以确定M0.8$-$0.2环的起源，这是一个具有明显环状形态的分子云。我们估计 M0.8$-$0.2 环的内外半径分别为 79 "和 154"（假定银河中心距离为 8.2 kpc，则分别为 3.1 pc 和 6.1 pc），并计算出其平均半径。2 kpc），并计算出平均气体密度为 $> 10^{4}$ cm$^{-3}$，质量为 $\sim$ $10^6$ M$_\odot$，膨胀速度为 $\sim$ 20 kms$^{-1}$，因此估计动能（$> 10^{51}$ erg）和动量（$> 10^7$ M$_\odot$ km s$^{-1}$）都很高。我们讨论了该结构存在和膨胀的几种可能原因，包括恒星反馈和大尺度动力学。我们提出，M0.8$-$0.2环最可能的成因是一次高能超新星爆发。为了合理解释观测到的形态和运动学特征，这样的爆炸需要发生在一个高密度、大质量的分子云内部，也就是我们现在看到的M0.8-0.2环的残余部分。在这种情况下，这种结构为超新星如何影响分子云提供了一个极端的例子。

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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arXiv - PHYS - Astrophysics of Galaxies

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