Instantaneous Teleportation Mechanism: Naturally Resolving the Black Hole Information Paradox

The black hole information paradox stands as one of the most intractable puzzles in contemporary theoretical physics, arising from the conflict between quantum mechanics’ unitarity (information conservation) and general relativity’s prediction of causal isolation at the event horizon. This paper proposes a unified solution based on a radical yet logically consistent first principle: the Instantaneous Teleportation Cosmos (ITC), where zero-latency transmission of matter, information, and energy is possible between any two spacetime points in the universe. The instantaneous teleportation mechanism establishes direct non-local connections between the interior of a black hole and the external Cosmos, eliminating the event horizon as an absolute causal boundary. Information trapped inside the black hole can escape either directly through zero-latency channels or be encoded in Hawking radiation, ensuring information conservation without violating quantum mechanics or causal laws. Based on the ITC theory, we predict that information leakage will occur in the early stage of black hole evaporation, accompanied by observable non-thermal signals. With the advancement of observational technologies in the future, high-precision measurements of the evaporation process of primordial black holes or quantum gravitational effects are expected to accurately capture these characteristic signals. This would provide direct observational evidence for the existence of instantaneous teleportation and the validity of the ITC theory, while also offering verifiable experimental support for the resolution of the black hole information paradox.