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BMS & Squeezed States

Lawrence B. Crowell

Abstract


A highly correlated set of quantum gravitation states, which admittedly we do not fully understand, might give rise to a worm hole with a negative vacuum energy. This might only exist for a small number of quantum states and not persist as a quantization on the large. If the wormhole becomes unstable then the coherent sets of states will be partitioned into entangled states. This unstable collapse of the wormhole likely results in a pair of entangled black holes. It is most plausible that if traversable wormholes exists that they are quantum mechanical or that black holes can be a quantum superposition with a wormhole state or quantum fluctuate into a wormhole.

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