One significant consequence of Haramein’s approach to quantum gravity, presented at the CASYS 2011 conference in Belgium, is that the discrete Planck units he utilizes to define the granular structure of spacetime at the quantum scale have a holographic nature similar to the holographic principle typically utilized in the current approaches to describe the entropy or temperature of a black hole and to attempt to resolve the information paradox. The holographic principle demonstrates that all the information in the interior of the black hole is holographically represented on its surface in terms of tiny Planck “grains”. However, in Haramein’s model his calculations show that the amount of information, in terms of Planck spherical units, in the volume of a proton is equivalent to the information of all other protons in the Universe, therefore demonstrating that the mass/energy information of all protons is shared across all of their surfaces. This implies that the interior of subatomic black wholes are linked through tiny Planck wormhole networks entangling and connecting all particles in a holographic whole. Therefore in this model, information falling into the black whole is exchanged with all other black wholes and the exchange continuously informs the whole to generate the evolution of our Universe. As a result, there may not be any information lost nor information paradox as the information is continuously shared across the Universal black whole network.
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posted 3442 days ago