Resolving the jet in Cygnus A

U. Bach, T. Krichbaum, E. Middelberg, W. Alef, J. Zensus, Mpifr, Bonn, H Germany, Astronomisches Institut - Ruhr Unsiversitat, Bochum
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引用次数: 4

Abstract

Our previous studies revealed a good kinematic model for the jet of Cygnus A, but the counter-jet speed is still not well constrained. The central engine and part of the counter-jet of Cyg A are likely to be obscured by free-free absorbing material, presumably a thick torus. At mm-wavelengths, the absorber becomes optically thin, which provides a more detailed view into the inner nuclear region. Knowing the speed of jet and counter-jet and their flux density ratio allows to determine the jet Lorentz factors and orientation. Therefore we started to monitor Cyg A with global VLBI at 43GHz in Oct. 2007. Our first epoch reveals a previously unseen gap between both jets. This could be either a sign for a new counter-jet component that is slowly separating or we start to see the very inner acceleration region of the jet which is not efficiently radiating at radio wavelengths. Further more the image shows transversely resolved jet structures at distances beyond ~0.5pc which facilitate more detailed investigations addressing jet stratification. Analysis of the resolved jet structure shows that the initially wide jet (opening angle ~10deg) collimates within the first parsec into a edge-brightened jet with an opening angle of ~3deg.
解决了天鹅座A的喷流
我们以前的研究揭示了天鹅座a射流的良好运动学模型,但反射流速度仍然没有很好地约束。天鹅座A的中央发动机和部分反喷流可能被自由-自由吸收材料所掩盖,可能是一个厚的环面。在毫米波长,吸收剂变得光学薄,这提供了更详细的观察内部核区域。了解喷流和反喷流的速度及其通量密度比,可以确定喷流的洛伦兹系数和方向。因此,我们于2007年10月开始用43GHz的全球VLBI对Cyg A进行监测。我们的第一个时代揭示了两个喷流之间以前未见过的间隙。这可能是一个新的反喷流成分正在缓慢分离的迹象,或者我们开始看到喷流的内部加速区域,它没有有效地辐射无线电波长。此外,该图像显示了横向分辨的射流结构,距离超过~ 0.5%,这有助于更详细地研究射流分层。解析后的射流结构分析表明,初始宽射流(开口角~10°)在第一秒差距内准直为开口角~3°的边缘亮化射流。
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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