Simulating the Birth of the Universe 1️⃣ Spacetime as Emergent From Jacobson’s derivation to AdS/CFT, we see that geometry itself is a manifestation of entanglement patterns . The “fabric” of spacetime behaves like a quantum error-correcting code — entanglement glues together the bulk. 2️⃣ Black Holes as Perfect Information Processors Hawking radiation and the Page curve show that information is never lost , it’s scrambled. The holographic principle says all the information inside a volume can be encoded on its boundary — an informational screen. 3️⃣ ER=EPR Einstein-Rosen bridges (wormholes) = EPR pairs (entanglement). A wormhole is a channel for entangled qubits — bridging geometry and quantum info. 4️⃣ Quantum Mechanics at its Core The no-cloning theorem , teleportation , mutual information — all these show how unitary evolution protects information . It’s not the particles or fields that are “most real,” but the relations and correlations ....
Black Hole Simulation This simulation demonstrates quantum spacetime fluctuations under extreme conditions , simulating a black hole-like scenario with the following dynamics: Localized High Energy Density : The central regio...
Developing a Full Quantum Gravity Model for the Pre-Big Bang Universe We now construct a Quantum Gravity Model based on Tensor Gravitons ( T μ ν \mathcal{T}^{\mu\nu} T μν ) that describes: The Pre-Big Bang Quantum State of the Universe. How Quantum Tensor Gravitons Replace the Classical Singularity. The Transition from a Quantum to a Classical Universe. Observable Signatures in Gravitational Waves and the Cosmic Microwave Background (CMB). Numerically Simulating the Evolution of the Pre-Big Bang Quantum Universe. ...
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