L. Sabin, M. Guerrero, S. Zavala, J. Toalá, G. Ramos-Larios, V. G'omez-Llanos
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引用次数: 2
摘要
我们提出了新的行星状星云(PN) IPHASX J193718.6+202102的详细分析,使用深度成像和中高分辨率光谱,通过形态运动学和光电离模型解释。星云的物理结构包括一个破碎的环面和一个极其微弱的正交双极流出,这与它的光学图像所显示的缩腰PN形态相反。我们的运动学分析表明,环面以25 $\pm$ 5 km s $^{-1}$的速度膨胀,并逐渐破裂。在7.1 $_{-0.3}^{+0.8}$ kpc的估计距离上,对应的$\sim$ 26000年的运动年龄与一个微弱且正在解体的PN相一致。中分辨率光谱显示一个具有典型II型PNe化学丰度的激发PN。在此基础上,我们还估计了其初始质量在2—3 M $_{\odot}$范围内,中心星(CSPN)的质量为$M_\mathrm{CSPN}\sim$ 0.61 M $_{\odot}$。紧随着碎片环面的斯皮策MIPS 24 $\mu$ m发射可以归因于[O IV]在25.9 $\mu$ m的发射,而不是尘埃发射。所有的结果都一致地指向一个中等质量的双极性II型PN,处于溶解到星际介质的边缘。
Detailed studies of IPHAS sources - I. The disrupted late bipolar IPHASX J193718.6+202102
We present a detailed analysis of the new planetary nebula (PN) IPHASX J193718.6+202102 using deep imaging and intermediate- and high resolution spectroscopy that are interpreted through morpho-kinematic and photoionisation modelling. The physical structure of the nebula consists of a fragmented torus and an extremely faint orthogonal bipolar outflow, contrary to the pinched waist PN morphology suggested by its optical image. Our kinematic analysis indicates that the torus is expanding at 25$\pm$5 km s$^{-1}$ and is gradually breaking up. At an estimated distance of 7.1$_{-0.3}^{+0.8}$ kpc, the corresponding kinematic age of $\sim$26000 years is consistent with a faint and disintegrating PN. The intermediate-resolution spectra reveal an excited PN with chemical abundances typical of Type II PNe. Based on the latter we also estimate an initial mass for the progenitor in the range 2--3 M$_{\odot}$ and a central star (CSPN) mass $M_\mathrm{CSPN}\sim$0.61 M$_{\odot}$. The Spitzer MIPS 24 $\mu$m emission that closely follows the fragmented torus could be attributed to the emission of [O IV] at 25.9 $\mu$m rather than to dust emission. All the results coherently point towards an evolved moderately massive bipolar Type II PN on the brink of dissolving into the interstellar medium.
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