Velilla Prieto L, Sánchez Contreras C, Cernicharo J, Agúndez M, Quintana-Lacaci G, Bujarrabal V, Alcolea J, Balança C, Herpin F, Menten K M, Wyrowski F
Instituto de Ciencia de Materiales de Madrid, CSIC, c/ Sor Juana Inés de la Cruz 3, 28049 Cantoblanco, Madrid, Spain; Centro de Astrobiología, INTA-CSIC, E-28691 Villanueva de la Cañada, Madrid, Spain.
Centro de Astrobiología, INTA-CSIC, E-28691 Villanueva de la Cañada, Madrid, Spain.
Astron Astrophys. 2017 Jan;597. doi: 10.1051/0004-6361/201628776. Epub 2016 Dec 19.
We aim to investigate the physical and chemical properties of the molecular envelope of the oxygen-rich AGB star IK Tau.
We carried out a millimeter wavelength line survey between ~79 and 356 GHz with the IRAM-30 m telescope. We analysed the molecular lines detected in IK Tau using the population diagram technique to derive rotational temperatures and column densities. We conducted a radiative transfer analysis of the SO lines, which also helped us to verify the validity of the approximated method of the population diagram for the rest of the molecules.
For the first time in this source we detected rotational lines in the ground vibrational state of HCO, NS, NO, and HCO, as well as several isotopologues of molecules previously identified, namely, CO, SiO, SiO, SiS, SiS, SiS, HCN, CS, CS, HS, SO, and SO. We also detected several rotational lines in vibrationally excited states of SiS and SiO isotopologues, as well as rotational lines of HO in the vibrationally excited state =2. We have also increased the number of rotational lines detected of molecules that were previously identified toward IK Tau, including vibrationally excited states, enabling a detailed study of the molecular abundances and excitation temperatures. In particular, we highlight the detection of NS and HCO with fractional abundances of (NS)10 and (HCO)[10-10 ]. Most of the molecules display rotational temperatures between 15 and 40 K. NaCl and SiS isotopologues display rotational temperatures higher than the average (~65 K). In the case of SO a warm component with ~290 K is also detected.
With a total of 350 lines detected of 34 different molecular species (including different isotopologues), IK Tau displays a rich chemistry for an oxygen-rich circumstellar envelope. The detection of carbon bearing molecules like HCO, as well as the discrepancies found between our derived abundances and the predictions from chemical models for some molecules, highlight the need for a revision of standard chemical models. We were able to identify at least two different emission components in terms of rotational temperatures. The warm component, which is mainly traced out by SO, is probably arising from the inner regions of the envelope (at ≲8) where SO has a fractional abundance of (SO)10. This result should be considered for future investigation of the main formation channels of this, and other, parent species in the inner winds of O-rich AGB stars, which at present are not well reproduced by current chemistry models.
我们旨在研究富氧渐近巨星分支(AGB)恒星IK Tau分子包层的物理和化学性质。
我们使用IRAM - 30米望远镜在约79至356吉赫兹之间进行了毫米波谱线巡测。我们使用布居图技术分析在IK Tau中检测到的分子谱线,以推导转动温度和柱密度。我们对SO谱线进行了辐射转移分析,这也有助于我们验证布居图近似方法对其余分子的有效性。
在该源中,我们首次检测到了HCO、NS、NO和HCO基态振动状态下的转动谱线,以及先前已识别分子的几种同位素分子,即CO、SiO、SiO、SiS、SiS、SiS、HCN、CS、CS、HS、SO和SO。我们还检测到了SiS和SiO同位素分子振动激发态下的几条转动谱线,以及振动激发态v = 2时HO的转动谱线。我们还增加了先前在IK Tau中已识别分子的转动谱线数量,包括振动激发态,从而能够详细研究分子丰度和激发温度。特别地,我们强调检测到NS和HCO,其丰度分数分别为(NS)10和(HCO)[10 - 10]。大多数分子的转动温度在15至4 K之间。NaCl和SiS同位素分子的转动温度高于平均值(约65 K)。在SO的情况下,还检测到一个温度约为290 K的热成分。
在IK Tau中总共检测到34种不同分子物种(包括不同同位素分子)的约350条谱线,对于富氧星周包层而言,IK Tau展现出丰富的化学组成。像HCO这样含碳分子的检测,以及我们推导的丰度与某些分子化学模型预测之间存在的差异,凸显了修正标准化学模型的必要性。就转动温度而言,我们能够识别出至少两种不同的发射成分。主要由SO追踪到的热成分可能源自包层内部区域(在≲8处),在该区域SO的丰度分数为(SO)~10。在未来对富氧AGB星内风中该母体物种及其他母体物种主要形成通道的研究中应考虑这一结果,目前当前化学模型对其的再现效果不佳。