The Holographic Circlette: Part 15 — The Rosetta Stone: How 3D Geometry Emerges from a Discrete Lattice
The Holographic Circlette: Part 15 — The Rosetta Stone: How 3D Geometry Emerges from a Discrete Lattice
We derive how pi factors governing coupling constants across force sectors emerge from dimensional projections of the discrete lattice: 1D to pi/2 (Dashen), 2D to 4*pi (pion decay), 3D to 8*pi*G (Einstein tensor). This provides the bridge from the 2D tensor network to 3+1D General Relativity.
Part of the Holographic Circlette paper series. See the summary paper for an overview of all results.
information physics, discrete spacetime, it from bit, dimensional projection, 8-bit code, holographic circlette, 4.8.8 lattice, emergent gravity, quantum error correction, Einstein tensor
information physics, discrete spacetime, it from bit, dimensional projection, 8-bit code, holographic circlette, 4.8.8 lattice, emergent gravity, quantum error correction, Einstein tensor
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