| viXra.org > Relativity and Cosmology > viXra:2512.0063 |
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| viXra.org > Relativity and Cosmology > viXra:2512.0063 |
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Relativity and Cosmology |
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Authors: Michael Isaac Aksman
Traditional warp drive metrics within General Relativity require planetary-mass energies due to the theoretical "stiffness" of space-time. We propose an alternative mechanism based on the Quantum Modified General Relativity (QMOGER) framework, which models space-time as a compressible superfluid. By exploiting the compressibility of the vacuum, we demonstrate that energy requirements may be reduced by approximately 20 orders of magnitude. The proposed drive utilizes the Dynamic Casimir Effect (DCE) driven by short-pulse lasers to generate high-pressure gradients and ionization of vacuum, while toroidal magnetic fields suppress turbulence, enforcing mostly laminar 2D+ flow regime for stable propulsion.
Comments: 4 Pages. Few bugs removed and few explanations and references added.
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[v1] 2025-12-15 02:00:03
[v2] 2026-01-05 21:01:26
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