The Big Bang from the Collapse of the Densest Object in the Previous Aeon

By analyzing Gurzadyan and Penrose’s anisotropic distribution of concentric low-variance circles with the Planck Collaboration’s large-scale temperature maxima and minima in the CMB, we propose a mechanism initiating the Big Bang: the Universe emerged from the collapse of the densest object in a previous-aeon black hole. While the object collapsed into the Big Bang singularity with minimum entropy, the entropy of the host black hole kept increasing. Thus the Second Law of thermodynamics has never been violated. Where the collapse occurred, or the Center of this Universe, would be at about 0.67 times the radius of the surface of last scattering (currently ca. 30 billion light years) away from us and around Galactic coordinates (l,b)=(279°,-47°). Our results are supported by independent observations of cosmic inhomogeneities and spatial anisotropies.