![]() ![]() Quantum matrix models represent particle theory. “If you have a quantum matrix model that is dual to a gravity theory where you can have black holes, and can solve the matrix model and compute several properties of the matrices, then holographic duality tells you how to translate those properties of matrices into properties of black holes,” Rinaldi told SYFY WIRE.Įnrico Rinaldi/U-M, RIKEN and A. Objects in either theory may be called different things, but in the end, they are the same. Meaning, gravity translates into particles and vice versa. Holographic duality tries to equalize these theories. ![]() Inversely, there are only particles and no gravity in the standard model of particle physics. There is only spacetime (gravity warps space and time) in Einstein’s theory of general relativity - no particles. Now physicist Enrico Rinaldi of the University of Michigan, who led a study recently published in PRX Quantum, has figured out how to possibly do this in a way that is kind of like The Matrix.īefore you can imagine an extension of the Matrix universe inside a black hole, you need to understand holographic duality. The only way to shed light on something from which light cannot escape is theoretically, but there are issues when theories collide. Even the most powerful telescopes cannot see what lies beyond the event horizon. Any spacecraft would be instantly crushed by the gravity. It is impossible to see inside black holes. ![]() Whatever is deep inside of a black hole remains in the dark, but there might be a way to at least predict the unmentionable things in its bowels. ![]()
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