A UNIFIED THEORY OF QUANTUM GRAVITY
Description
We present a unified quantum theory of gravity that treats spacetime as an emergent
quantum network of entangled Planck-scale nodes. The framework resolves the black
hole information paradox, unifies quantum mechanics with general relativity, and
predicts observable gravitational entanglement in laboratory settings. Six simulated
experiments using quantum circuits, tensor networks, and atomic interferometry
confirm gravitational wavefunction collapse, curvature from spin networks,
information preservation, gravitational redshift, entanglement-induced time dilation,
and Planck-scale curvature fluctuations. A rigorous mathematical proof demonstrates
unitarity and reduction to the Schwarzschild metric at macroscopic scales.
Files
qmgrav.pdf
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