论文标题
1.28 GHz MEERKAT银河中心马赛克
The 1.28 GHz MeerKAT Galactic Center Mosaic
论文作者
论文摘要
内部$ \ sim $ 200 pc的星系区域包含400万m $ _ {\ odot} $超质量黑洞(SMBH),大量的分子气,星形和宇宙射线能密度,这些密度比银河系disk的相应水平高两个数量级。该地区只有8.2 kpc的距离,为天文学家提供了一个独特的机会,可以研究各种能量的天体物理现象,从极端环境中的恒星物体到SMBH的恒星物体到SMBH和恒星形成驱动的反馈过程,这些反馈过程已知,这些过程众所周知,这些过程旨在影响整体星系的演化。我们介绍了与南非Meerkat射程望远镜进行的银河中心的新调查。无线电成像提供的视图不受大量尘埃的影响,这些灰尘掩盖了其他波长的区域,并且揭示了惊人的复杂性场景。 We produce total intensity and spectral index mosaics of the region from 20 pointings (144 hours on-target in total), covering 6.5 square degrees with an angular resolution of 4$"$,at a central frequency of 1.28 GHz. Many new features are revealed for the first time due to a combination of MeerKAT's high sensitivity, exceptional $u,v$-plane coverage, and geographical vantage point. We highlight some initial survey results,包括新的Supernova残留候选人,许多新的非热丝综合体以及无线电泡泡,SGR A和SGR B区域的观点。
The inner $\sim$200 pc region of the Galaxy contains a 4 million M$_{\odot}$ supermassive black hole (SMBH), significant quantities of molecular gas, and star formation and cosmic ray energy densities that are roughly two orders of magnitude higher than the corresponding levels in the Galactic disk. At a distance of only 8.2 kpc, the region presents astronomers with a unique opportunity to study a diverse range of energetic astrophysical phenomena, from stellar objects in extreme environments, to the SMBH and star-formation driven feedback processes that are known to influence the evolution of galaxies as a whole. We present a new survey of the Galactic center conducted with the South African MeerKAT radio telescope. Radio imaging offers a view that is unaffected by the large quantities of dust that obscure the region at other wavelengths, and a scene of striking complexity is revealed. We produce total intensity and spectral index mosaics of the region from 20 pointings (144 hours on-target in total), covering 6.5 square degrees with an angular resolution of 4$"$,at a central frequency of 1.28 GHz. Many new features are revealed for the first time due to a combination of MeerKAT's high sensitivity, exceptional $u,v$-plane coverage, and geographical vantage point. We highlight some initial survey results, including new supernova remnant candidates, many new non-thermal filament complexes, and enhanced views of the Radio Arc Bubble, Sgr A and Sgr B regions. This project is a SARAO public legacy survey, and the image products are made available with this article.
