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...

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

The holographic principle is one of the first introductions of the idea that information may be present holographically within certain structures in the universe — namely, black holes. At this point, one may start to notice how the scientific narrative has been progressively and very subtly switching from terms like energy, forces, particles, and fields, to this word: information.

When we think of information, we think of computers and programming and bits of information, expressed in values of 0 or 1 in a binary system. This all is a subset of a larger field called information theory, whose goal is to explain all features of reality as emerging from information exchange and its properties.

This article explores further the topic, giving a brief overview of the history and development of the holographic principle behind the fundamental concept of the generalized holographic model developed by Nassim...

^{By Amal Pushp, Affiliate Physicist at the Resonance Science Foundation}

Our universe is constantly undergoing an expansion phase which is accelerating in nature. There are several theories in the scientific literature that have been formulated to explain features of this accelerating expansion, one of which is cosmic inflation proposed by theoretical physicist Alan Guth in the late 1970s and later developed by Andrei Linde, Paul Steinhardt and others [1, 2, 3].

It is well suggested by the theory that the epoch of inflation lasted from 10⁻³⁶ seconds to sometime between 10⁻³³ and 10⁻³² seconds after the Big Bang. But in order to articulate the events following the Big Bang admirably, one needs to have a full-fledged quantum theory of gravity, which is still a substantial challenge for physicists.

Now our current picture of the universe is well approximated by the de Sitter framework, named after the Dutch astronomer Willem de Sitter. The de Sitter picture also...