Quantum Gravity Black Holes, Quantum Entanglement and the Theory of an Entanglement Free Universe

We study the physics of a quantum gravitational black hole in Einstein-Gauss-Bonnet gravity. The black hole is described by an observer that is in a quantum vacuum state, and by a non-local observer that is not in a quantum vacuum state. The Einstein-Gauss-Bonnet equation in the quantum vacuum state of the observer is also discussed. We study the effects of the quantum vacuum state on the geometry of the black hole. We demonstrate that, in the quantum vacuum state, the Hawking radiation from the black hole can make the black hole become a quantum entanglement free universe. In the non-perturbative limit, we find that the black hole is a quantum entanglement free universe, with Hawking radiation.