Abstract
This framework introduces a non-local, unified cosmological model wherein three-dimensional spatial volume and general relativity emerge as a macroscopic phase projection from a fundamental two-dimensional informational boundary substrate. Rather than treating quantum entanglement and gravitational curvature as separate phenomena, this topology defines gravity as the macro-scale expression of a topological entanglement entropy gradient trying to restore conformal symmetry across a mirror-symmetric hyper-spherical bulk.
We model the cosmic lifecycle as a closed thermodynamic loop driven by bulk-to-boundary kinetic injections, localized soliton phase transitions, and eventual non-local geometric contraction.
Key Theoretical Nomenclature
- Boundary Substrate (\(\partial M\)): The foundational 2D Planck-level manifold hosting continuous, un-collapsed conformal wave functions.
- The Bulk Sphere (\(M_{\text{Tot}}\)): The hyper-dimensional, mirror-symmetric spherical volume split equatorially by the boundary substrate.
- Localized Soliton Excitation: A self-reinforcing, non-dispersive wave packet emerging in 3D space, traditionally classified as a "blobby" physical particle.
- Symmetry-Breaking Disruption: The localized severing or collapsing of continuous 2D sine waves to generate discrete, entangled particle-antiparticle pairs.
- Topological Recoil Gradient: The hyper-dimensional elastic tension exerted by quantum mutual information across the boundary, macroscopically observed as gravitational force.
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Eckes, Christopher L., "The Totality Sphere Framework: Conformal Field Disruption, Mirror-Symmetric Spacetime Emergence, and Entanglement-Driven Topological Recoil", Technical Disclosure Commons, ()
https://www.tdcommons.org/dpubs_series/10514