Physicists Utilize the Holographic Correspondence Conjecture to Describe Quantum Teleportation of Qubits Via a Traversable Wormhole Spacetime Geometry: researchers have begun testing a quantum gravity theory by employing the entanglement states achievable within quantum computers. In a recent experiment, a research team used Google’s Sycamore quantum computer to test the teleportation of nine qubits to see if the quintessentially quantum mechanical process could produce the same signal as if the qubits had traversed through a micro-wormhole. As reported in the journal Nature, the research team provides the data that they say confirms the holographic correspondence between quantum teleportation and traversing through a microscopic spacetime Einstein-Rosen bridge (also known as a wormhole), indicating that gravitation is operational at the scale of particle interactions, and spacetime geometry may underlie quantum mechanics.

By RSF scientists Dr. Inés Urdaneta...

In the first part of this series, entitled The Generalized Holographic Model, Part I: The Holographic Principle, we introduced the holographic principle as developed by David Bohm, Gerard 't Hooft, Jacob Bekenstein and Stephen Hawking. This principle states that the information contained in the volume of a Black hole is holographically present in the boundary or event horizon of the black hole. Then, in the second part The generalized holographic model part II: Quantum Gravity and the Holographic Mass Solution, we introduced Nassim Haramein's generalization of such principle, where he includes the volume information or degrees of freedom in the volume as well. This generalization allows to define a holographic ratio that accounts...

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^{By Dr. Inés Urdaneta, Physicist at Resonance Science Foundation}

In the former article entitled The Generalized Holographic Model, Part I: The Holographic Principle, we introduced the holographic principle as developed by David Bohm, Gerard 't Hooft, Jacob Bekenstein and Stephen Hawking. This principle states that the information contained in the volume of a Black hole is holographically present in the boundary or event horizon of the black hole. We then introduced the generalization of such principle by Nassim Haramein, where he includes the volume information or degrees of freedom in the volume as well. This generalization allows to define a holographic ratio that accounts for the surface-to-volume entropy or information potential transfer, which is a steady state or thermodynamical equilibrium, equivalent to a kinetic rate constant.  

In this second part we will see why Haramein’s generalized holographic approach gives a quantized...

^{By Dr. Inés Urdaneta / Physicist at Resonance Science Foundation}

In this article we present the holographic solution that Nassim Haramein proposes to explain the so-called Vacuum Catastrophe problem addressed in a former article, concerning the large gap of ~122 orders of magnitude between the vacuum energy density at cosmological scale and the vacuum energy density predicted by quantum field theory. The complete calculation entitled Resolving the Vacuum Catastrophe: A Generalized Holographic Approach, by Haramein and Dr. Val Baker, was published in the Journal of High energy Physics, Gravitation and Cosmology, in 2019.

^{Image by Dr. Amira Val Baker, astrophysicist}

To estimate theoretically the vacuum energy density at the quantum scale, quantum field theory (QFT) describes a vacuum composed of an infinite number of electromagnetic fields which are randomly fluctuating at all frequencies (also known as vacuum fluctuations, or zero point oscillations). Through the ...