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Dual Sheet Model: Simulation of Entanglement Bursts with Time Evolution
- The Dual Sheet Model (DSM) introduces a cosmological framework suggesting the universe comprises two sheets: a matter sheet and an antimatter sheet linked by a coherence field.
- Inside a rotating black hole, the DSM predicts entanglement bursts within the coherence field, enabling quantum memory transfer between sheets.
- The DSM focuses on the inner horizon of a spinning black hole, where spacetime resonance leads to entanglement bursts and time reflection.
- The coherence field serves as the universe's memory-keeper, pulsing near the inner horizon of a black hole to facilitate entanglement bursts.
- Physicists simulate the behavior of the coherence field over time, resembling a storm building up near the black hole's inner horizon.
- Entanglement bursts represent synchronization moments between matter and antimatter sheets, bridged by the coherence field in the DSM.
- These bursts manifest as spikes in entanglement entropy, indicating deep connections between the sheets and potential gravitational wave signals.
- The simulation of entanglement bursts and time reflections in the coherence field acts as a digital laboratory due to the inaccessibility of black hole interiors.
- In the DSM, black holes are portrayed as memory engines fostering quantum communication through entanglement bursts rather than information erasers.
- The model suggests potential observations like delayed gravitational wave echoes, Hawking radiation anomalies, and cosmic neutrino interference patterns if proven correct.
- Ultimately, the DSM challenges conventional views on black holes, suggesting they are portals, memory repositories, and echo chambers of time and information.
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