ALMA Observations of Supernova Remnant N49 in the Large Magellanic Cloud. II. Non-LTE Analysis of Shock-heated Molecular Clouds

IF 4.8 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
H. Sano, Y. Yamane, J. Th. van Loon, K. Furuya, Y. Fukui, R. Z. E. Alsaberi, A. Bamba, R. Enokiya, M. D. Filipović, R. Indebetouw, T. Inoue, A. Kawamura, M. Lakićević, C. J. Law, N. Mizuno, T. Murase, T. Onishi, S. Park, P. P. Plucinsky, J. Rho, A. M. S. Richards, G. Rowell, M. Sasaki, J. Seok, P. Sharda, L. Staveley-Smith, H. Suzuki, T. Temim, K. Tokuda, K. Tsuge, K. Tachihara
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Abstract

Abstract We present the first compelling evidence of shock-heated molecular clouds associated with the supernova remnant (SNR) N49 in the Large Magellanic Cloud (LMC). Using 12 CO( J = 2–1, 3–2) and 13 CO( J = 2–1) line emission data taken with the Atacama Large Millimeter/Submillimeter Array, we derived the H 2 number density and kinetic temperature of eight 13 CO-detected clouds using the large velocity gradient approximation at a resolution of 3.″5 (∼0.8 pc at the LMC distance). The physical properties of the clouds are divided into two categories: three of them near the shock front show the highest temperatures of ∼50 K with densities of ∼500–700 cm −3 , while other clouds slightly distant from the SNR have moderate temperatures of ∼20 K with densities of ∼800–1300 cm −3 . The former clouds were heated by supernova shocks, but the latter were dominantly affected by the cosmic-ray heating. These findings are consistent with the efficient production of X-ray recombining plasma in N49 due to thermal conduction between the cold clouds and hot plasma. We also find that the gas pressure is roughly constant except for the three shock-engulfed clouds inside or on the SNR shell, suggesting that almost no clouds have evaporated within the short SNR age of ∼4800 yr. This result is compatible with the shock-interaction model with dense and clumpy clouds inside a low-density wind bubble.
大麦哲伦星云超新星遗迹N49的ALMA观测。2。激波加热分子云的非lte分析
我们首次提出了与大麦哲伦星云(LMC)中超新星遗迹(SNR) N49相关的激波加热分子云的令人信服的证据。利用阿塔卡马大型毫米波/亚毫米波阵列采集的12个CO(J = 2 - 1、3 - 2)和13个CO(J = 2 - 1)线发射数据,利用分辨率为3的大速度梯度近似,导出了8个13个CO探测云的h2数密度和动力学温度。″5(在LMC距离上约0.8个百分点)。云的物理性质分为两类:靠近激波锋的三种云的最高温度为~ 50 K,密度为~ 500-700 cm−3,而稍微远离信噪比的其他云的中等温度为~ 20 K,密度为~ 800-1300 cm−3。前一种云由超新星激波加热,而后一种云主要受宇宙射线加热的影响。这些发现与N49中由于冷云和热等离子体之间的热传导而有效地产生x射线复合等离子体是一致的。我们还发现,除了在信噪比壳内或壳上的三个激波吞没云外,气体压力大致恒定,这表明在短信噪比年龄(~ 4800年)内几乎没有云蒸发。这一结果与激波相互作用模型兼容,该模型在低密度风泡内具有密集和块状云。
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来源期刊
Astrophysical Journal
Astrophysical Journal 地学天文-天文与天体物理
CiteScore
8.40
自引率
30.60%
发文量
2854
审稿时长
1 months
期刊介绍: The Astrophysical Journal is the foremost research journal in the world devoted to recent developments, discoveries, and theories in astronomy and astrophysics.
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