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A close nuclear black-hole pair in the spiral galaxy NGC 3393
Article
关键词: ACTIVE GALACTIC NUCLEI;    X-RAY SOURCE;    SYSTEM;    REFLECTION;    DISCOVERY;    BINARIES;    NGC-3393;    SUZAKU;   
DOI  :  10.1038/nature10364
来源: SCIE
【 摘 要 】

The current picture of galaxy evolution(1) advocates co-evolution of galaxies and their nuclear massive black holes, through accretion and galactic merging. Pairs of quasars, each with a massive black hole at the centre of its galaxy, have separations of 6,000 to 300,000 light years (refs 2 and 3; 1 parsec = 3.26 light years) and exemplify the first stages of this gravitational interaction. The final stages of the black-hole merging process, through binary black holes and final collapse into a single black hole with gravitational wave emission, are consistent with the sub-light-year separation inferred from the optical spectra(4) and light-variability(5) of two such quasars. The double active nuclei of a few nearby galaxies with disrupted morphology and intense star formation (such as NGC 6240 with a separation(6) of about 2,600 light years and Mrk 463 with a separation(7) of about 13,000 light years between the nuclei) demonstrate the importance of major mergers of equal-mass spiral galaxies in this evolution; such mergers lead to an elliptical galaxy(8), as in the case of the double-radio-nucleus elliptical galaxy 0402+379 (with a separation of about 24 light years between the nuclei)(9). Minor mergers of a spiral galaxy with a smaller companion should be a more common occurrence, evolving into spiral galaxies with active massive black-hole pairs(10), but have hitherto not been seen. Here we report the presence of two active massive black holes, separated by about 490 light years, in the Seyfert(11) galaxy NGC 3393 (50 Mpc, about 160 million light years). The regular spiral morphology and predominantly old circum-nuclear stellar population(12) of this galaxy, and the closeness of the black holes embedded in the bulge, provide a hitherto missing observational point to the study of galaxy/black hole evolution. Comparison of our observations with current theoretical models of mergers suggests that they are the result of minor merger evolution(10).

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