I got this off of the Nassim Haramein facebook page, and it is a fantastic article. I have been researching this topic for sometime, ever since I came across Dan Winter and Walter Russll. There is some much terminology to wade through, but if you can distill the concepts the terms describe, there is great coherence in the modeling. See the post Light From Sound? Sonoluminescence creating the Heat of a Sun via Implosion – Understanding Over Unity Physics for a less technical explanation.
Source – The Resonance Project
A hologram is a two-dimensional image which stores information about all three dimensions of the object it represents. The two images here are photographs of a single hologram taken from different angles.
It was soon realized that this principle could resolve a putative problem that had arisen in physics known as the information loss paradox. Stephen Hawking conjectured that black holes should actually radiate with emissions of particles from the quantum vacuum, which would eventually lead to their evaporation, albeit over an astronomically long period of time for solar mass black holes. If nothing can escape from the interior region of the event horizon that would mean all of the information initially contained by the collapsed star would essentially have disappeared. This violates a quantum mechanical principle of the conservation of information, much like the conservation of mass and energy. However, if the information is holographically encoded by vacuum fluctuations on the surface of the light-like boundary of the graviational horizon, then it is still accessible to the “physical universe”, and is therefore not lost. Furthermore, the Hawking radiation may be quantum entangled with the trans-horizon area, making it possible that the interior information is retained in the emissions even as the black hole evaporates (assuming that black holes truly evaporate, as in fact, according to Haramein there is a continuous feedback of information from the vacuum fluctuations rendering a dynamics equilibrium state to black hole structures).
Expanding on this notion, physicist Juan Maldacena published a pivotal paper showing how Swarzschild black holes described in what is known as anti-De Sitter space (simply a spacetime with negative curvature) can be holographically approximated by two entangled quantum systems. The quantum systems are described by the mathematical formulations of quantum field theory, and anti-De Sitter space is a particular form of the geometric description of gravity in General Relativity, thus the holographic correspondence between these two theories is considered a particular solution of quantum gravity. Because it made possible the description of the evolution of black holes in accordance with the known principles of quantum mechanics, this Correspondence Principle appeared to resolve the seeming information loss paradox. And has now led to postulations that all of spacetime is built by quantum entanglement through black hole / wormholes, like an enormous network where particles are hubs and wormholes in the structure of the vacuum are the link between them (stay tuned for another article on this specific subject, with some of the latest publications in the near future).
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