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...
Scientists utilize elements of the Haramein Quantum Gravity Holographic Solution to solve the Black Hole Information Loss Paradox
In our quotidian experience the feature of spacetime locality seems to be an indelible feature of a rational reality; the idea that effects follow their causes, which we know from special relativity requires that no signal or information travel faster than the speed of light. If a signal were to travel faster than the speed of light, an effect might precede its cause—so for instance a superluminal spaceship could make a roundtrip voyage and return to a frame-of-reference where it had not yet departed. The problem with locality, no matter how indelible it seems to our rational, is that both quantum physics and relativity theory have properties that seemingly permit non-local interactions: in the former there are Einstein Podolsky Rosen (EPR) correlations, and in the latter, there...
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