用ALMA在千兆星系TX 2226-184中探测到183和380千兆赫的maser辐射

A. Tarchi, P. Castangia, G. Surcis, V. Impellizzeri, E. Ladu, E. Yu Bannikova
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摘要

众所周知,低电离核发射线区(LINER)星系TXS/,2226-184含有一个非常明亮的22千兆赫水maser,在被发现时被称为千兆水maser。迄今为止,人们仍在争论这个水 maser 的性质,特别是它是与核吸积盘有关,还是与抛射成分(即源于活动星系核的喷流或流出物)有关。我们在第 9 周期获得了多波段(波段 5、6 和 7)ALMA 观测数据,目的是研究 maser 的性质和银河系最内层的核分子物质。虽然完整的数据集仍在研究之中,但本函所介绍的对波段 5 和波段 7 光谱线立方体的初步数据缩减和分析已经提供了一个重要的结果。我们在TXS\,2226-184中观测到了明亮的、可能来自水183 GHz和380 GHz跃迁的maser发射。据我们所知,这是首次在一个已知的22千兆赫沼气星系中明确地探测到(信噪比为ge 100)380千兆赫的沼气发射,也是首次在同一个天体中出现所有三个转变的情况。两种频率的发射特征都显示出与 22 GHz maser 特征相似的双峰线剖面。在误差范围内,毫米/亚毫米波发射源自与 22 GHz 发射重合的区域。尽管线强度和特征峰位置的差异可能暗示了发射气体的物理条件略有不同,但其轮廓和位置的相似性表明,这三种频率的发射可能是由相同的核结构产生的。通过与少数以足够高的细节进行研究的、与 TXS\,2226-184 中的水线有相似之处的巨激光源进行比较,我们认为其性质与(来自喷流或外流的)明亮核连续面通过核前方的高密度热气体(如圆盘或环状体)放大有关;然而,要更好地评估这种情况,还需要对现有数据进行更全面的分析。
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Detection of maser emission at 183 and 380 GHz with ALMA in the gigamaser galaxy TX 2226-184
The low-ionization nuclear emission-line region (LINER) galaxy TXS\,2226-184 is known to host a very luminous 22 GHz water maser, called a gigamaser at the time of its discovery. To date, the nature of this maser is still being debated, in particular, whether it is associated with a nuclear accretion disk or with an ejection component, namely a jet or an outflow originating in the active galactic nucleus. We obtained multi-band (bands 5, 6, and 7) ALMA observations during Cycle 9, with the purpose of investigating the maser nature and the nuclear molecular material in the innermost region of the galaxy. While the full data sets are still under study, a preliminary data reduction and analysis of the band 5 and 7 spectral line cubes presented in this Letter already offer a significant outcome. We observed bright, possibly maser emission from the water 183 GHz and 380 GHz transitions in TXS\,2226-184. To the best of our knowledge, this represents the first unambiguous detection (S/N ge 100) of 380 GHz maser emission in a known 22-GHz maser galaxy, and the first case where all three transitions are present in the same object. Emission features at both frequencies show a two-peaked line profile resembling that of the 22 GHz maser features. The millimeter/submillimeter emission originates from a region coincident, within the errors, with that of the 22 GHz. The similarities in profile and position indicate that the emission at the three frequencies is likely produced by the same nuclear structure, although differences in line strengths and feature peak positions may hint at a slightly different physical conditions of the emitting gas. A comparison with the few megamaser sources studied at high enough detail and sharing similarities with the water lines in TXS\,2226-184 favors a nature associated with the amplification of a bright nuclear continuum (from a jet or outflow) through dense and hot gas in front of the nucleus (e.g., a disk or torus); however, a more comprehensive analysis of the available data is necessary to better assess this scenario.
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