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Pacucci, F., Volonteri, M. and Ferrara, F. (2015) The Growth Efficiency of High-Redshift Black Holes. arXiv: 1506.04750.
http://dx.doi.org/10.1093/mnras/stv1465

has been cited by the following article:

  • TITLE: Massive Galaxies and Central Black Holes at z = 6 to z = 8

    AUTHORS: T. R. Mongan

    KEYWORDS: Large Scale Structure, Holography, Early Galaxies, Early Supermassive Black Holes

    JOURNAL NAME: Journal of Modern Physics, Vol.6 No.14, November 5, 2015

    ABSTRACT: In a closed vacuum-dominated universe, the holographic principle implies that only a finite amount of information will ever be available to describe the distribution of matter in the sea of cosmic microwave background radiation. When z = 6 to z = 8, if information describing the distribution of matter in large scale structures is uniformly distributed in structures ranging in mass from that of the largest stars to the Jeans’ mass, a holographic model for large scale structure in a closed universe can account for massive galaxies and central black holes observed at z = 6 to z = 8. In sharp contrast, the usual approach assuming only collapse of primordial overdensities into large scale structures has difficulty producing massive galaxies and central black holes at z = 6 to z = 8.